研究業績一覧

書籍、レビュー論文

• 下島公紀，岡村慶，藤井輝夫："熱水探査のための化学・生物センサの開発状況と今後の開発ならびに民間移転に向けた取り組み"，海洋調査技術，Vol.30（2018），pp.35-43.
• 金秀炫，伊藤博史，藤井輝夫："血中循環腫瘍細胞の高純度分離・1 細胞解析を実現する新規システム"，PHARM STAGE，Vol.17，No.9（2017），pp.26-30.
• 木村啓志，南学正臣，藤井輝夫："Organ-on-a-Chip の潮流とin vitro 腎臓モデルデバイスへの応用"，腎臓内科・泌尿器科，Vol.5，No.5（2017），pp.504-508.
• 松尾司，木下晴之，大島まり，藤井輝夫："デジタルホログラフィを用いたリアルタイム三次元計測器の開発とその応用"，光アライアンス，Vol.28，No.2（2017），pp.30-34.
• 木下晴之，前川敏郎，国田勝行，黒田真也，藤井輝夫："細胞応答計測のためのマイクロ流体制御技術と細胞培養"，臓器チップの技術と開発動向，システム／制御／情報，Vol.61，No.7（ 2017），pp.253-258.
• 木村啓志，藤井輝夫："臓器チップ開発のための微細加工技術"，臓器チップの技術と開発動向，シーエムシー出版（2017），pp.31-36.
• 伊藤博史，金秀炫，藤井輝夫："第2章 誘電泳動を用いた細胞濃縮デバイスを組み込んだCTC高純度濃縮システム"，リキッドバイオプシー ―体液中腫瘍マーカーの検出・解析技術―，シーエムシー出版（2017）．
• 藤井輝夫："社会ニーズと技術シーズの融合を実現するデザイン未来像"，生産研究，Vol.69，No.5（2017），pp.229-231.
• 木村啓志，酒井康行，藤井輝夫："マイクロ流体デバイス技術によるOrgan/Body-on-a-Chipの実現に向けた取り組み"，細胞，Vol.43, No.3 (2016)，pp.44-47.
• 藤井輝夫："年頭所感"，生産研究，Vol.68, No.1 (2016)，pp.1-2．
• 木村啓志，酒井康行、藤井輝夫："マイクロ流体デバイス技術によるOrgan/Body-on-a-Chipの実現に向けた取り組み"，細胞，Vol.43, No.3 (2016) pp.44-47.
• 木村啓志，藤井輝夫，酒井康行："創薬を加速化するツールとしてのOrgan-on-a-chip の進展"，薬剤学，Vol.76, No.4 (2016) pp.238-242.
• 小森喜久夫，木村啓志，藤井輝夫，酒井康行："細胞アッセイ応用を指向した生理学的応答を示す臓器・生体モデルの開発"，化学センサ，Vol.3，No.3 (2016) pp.104-110.
• 川田治良，藤井輝夫，池内与志穂："神経変性疾患の理解と治療に向けた研究の概況と新しいアプローチ"，生産研究，Vol.68，No.3（2016），pp.25-30.
• Kawada, J., Kaneda, S., Kim, S.-H., and Fujii, T.: "Microfluidic Approach to Cell Handling and Measurement", Tsuji, S., and Sone, J. eds., Intelligent Nanosystems for Innovations in Energy, Environment, and Biotechnologies, Springer (2016), pp.85-106
• 福場辰洋，花谷耕平，藤井輝夫："マイクロ流体デバイス技術を応用した現場計測システム"，光アライアンス，Vol.26，No.5 (2015)，pp.7-11.
• 福場辰洋，西田周平，藤井輝夫："可搬型装置が拓く資源探査・海洋科学の新時代"，化学工学誌，Vol.79，No.2 (2015)，pp.125-127.
• 藤井輝夫："『「いきもの」に学ぶ工学』所長挨拶"，生産研究，Vol.67，No.5 (2015)，pp.1-3.
• ナタリーフランセス，金範埈，藤田博之，エリックラルティゴー，藤井輝夫，ドミニクコラール："Sendng Microsystems in Medicine in Lille – European Japanese Technologies against Cancer A blank is missing (SMMiL-E)"，生産研究，Vol.67，No.5 (2015)，pp.131-134．
• ティモテレヴィ，藤井輝夫："Microfluidic device that mimics neurons"，生産研究，Vol.67，No.5 (2015)，pp.135-137．
• アレクサンドルバクーシュ，藤井輝夫，ヤニックロンドレーズ，アントニージュノ："Molecular programming and microsystems"，生産研究，Vol.67，No.5 (2015)，pp.169-175．
• Fukuba, T., Noguchi, T., and Fujii, T.: "The Yoron Hole: The Shallowest Hydrothermal System in the Okinawa Trough", J. Ishibashi, K. Okino, and M. Sunamura eds., Subseafloor Biosphere Linked to Hydrothermal Systems - TAIGA Concept, Springer (2015), pp.489-492, DOI: 10.1007/978-4-431-54865-2_38
• Fukuba, T., Noguchi, T., and Fujii, T.: "The Irabu Knoll: Hydrothermal Site at the Edge of the Yaeyama Graben", J. Ishibashi, K. Okino, and M. Sunamura eds., Subseafloor Biosphere Linked to Hydrothermal Systems - TAIGA Concept, Springer (2015), pp.493-496, DOI: 10.1007/978-4-431-54865-2_39
• Noguchi, T., Fukuba, T., Okamura, K., Ijiri, A., Yanagawa, K., Ishitani, Y., Fujii, T., and Sunamura, M.: "Distribution and Biogeochemical Properties of Hydrothermal Plumes in the Rodoriguez Triple Junction", J. Ishibashi, K. Okino, and M. Sunamura eds., Subseafloor Biosphere Linked to Hydrothermal Systems - TAIGA Concept, Springer (2015), pp.195-204,DOI: 10.1007/978-4-431-54865-2_15
• 木下晴之，松尾司，大島まり，藤井輝夫："デジタルホログラフィック顕微鏡によるリアルタイム三次元計測と流れ計測"，光技術コンタクト，Vol.52，No.7 (2014)，pp.25-32．
• 松尾司，木下晴之，安木政史，大島まり，藤井輝夫："デジタルホログラフィック顕微鏡の開発とその応用"，HODIC Circular，Vol.34，No.2 (2014)，pp.24-28．
• 福場辰洋，西田周平，藤井輝夫："可搬型装置が拓く資源探査・海洋科学の新時代"，化学工学，Vol.79，No.2 (2014)，pp.125-127．
• 西田周平，松原直貴，藤井輝夫："海洋ナノセンシングのための現場型AFMの開発"，生産研究，Vol.66，No.3 (2014)，pp.47-50．
• 福場辰洋，藤井輝夫："マイクロ流体デバイスを用いた海洋計測"，光技術コンタクト，Vol.51，No.7 (2013)，pp.4-10．
• 金田祥平，荒木文子，中村寛子，藤井輝夫："CTC 分離検出マイクロ流体デバイスの開発動向",生産研究，Vol.65，No.3 (2013)，pp.3-8．
• 小林麻里奈，Soo Hyeon Kim，金田祥平，藤井輝夫："単一CTC解析用マイクロチャンバアレイの開発"，生産研究，Vol.65，No.3 (2013)，pp.9-11．
• 木村啓志，酒井康行，藤井輝夫："マイクロ流体デバイス技術を応用したin vitro 生体モデルの構築"，先端バイオマテリアルハンドブック，エヌティーエス出版 (2012)，pp.474-477．
• 茂木克雄，藤井輝夫："応用マイクロ流体システムとその展開－個別細胞の機能評価に向けて－"，塑性と加工（日本塑性加工学会誌），Vol.52，No.610 (2012)，pp.1158-1162．
• Fukuba, T., and Fujii, T.: "Microfabricated flow-through device for in situ gene analysis", Molecular Biological Technologies for Ocean Sensing, Springer Protocols Handbooks, Springer (2012), pp.59-72.
• Fukuba, T., and Fujii, T.: "Detection for ATP quantification using microfluidic device", Molecular Biological Technologies for Ocean Sensing, Springer Protocols Handbooks, Springer (2012), pp.203-217.
• 木村啓志，山本貴富喜，竹内昌治，酒井康行，藤井輝夫："マイクロ流体デバイスの細胞培養への応用"，バイオチップ実用化ハンドブック，NTS (2010)，pp.557-563.
• 藤井輝夫："特集にあたって"，月刊バイオインダストリー，Vol.27，No.3 (2010)，pp.5-6．
• 木村啓志，竹内昌治，酒井康行，藤井輝夫："マイクロ流体技術を応用した受精卵培養システム"，月刊バイオインダストリー，Vol.27，No.3 (2010)，pp.43-49．
• 藤井輝夫："マイクロ流体デバイスを用いた細胞・組織Showcase構築の試み"，細胞工学，Vol.29，No.4 (2010)，pp.360-364．
• 酒井康行，藤井輝夫，新野俊樹："再生医療への化学工学の寄与可能性－組織設計・構築と育成－"，再生医療，Vol.9，No.3 (2010)，pp.65-70．
• Kaneda, S. and Fujii, T.: "Integrated microfluidic systems", Part IV Processing Technology, Nano/Micro Biotechnology (Advances in Biochemical Engineering/Biotechnology, Vol.119), Springer-Verlag (2010), pp.179-194.
• 木下晴之，藤井輝夫："流体"，MEMS/NEMS工学大全，テクノシステム (2009)，pp.28-29．
• 福場辰洋，藤井輝夫："マイクロ流体デバイスの深海微生物探査への応用"，マリンメタゲノムの有効利用，シーエムシー出版 (2009)，pp.14-27．
• 木村啓志，山本貴富喜，酒井康行，藤井輝夫："体内毒性試験のためのオンチップin vitroモデルの構築"，化学とマイクロ・ナノシステム研究会誌、Vol.8、No.1 (2009)，pp. 16-17．
• 木村啓志，竹内昌治，金範埈，酒井康行，藤井輝夫，藤田博之："細胞選択技術"，Medical Bio, Vol.6, No.4 (2009)，pp.8-10．
• 木村啓志，酒井康行，藤井輝夫："多孔質膜を有するマイクロチップによる細胞アッセイ"，膜（MEMBRANE），Vol. 34，No. 6 (2009)，pp.304-309．
• 藤井輝夫："マイクロリアクターにおける流体の制御と計測技術"，マイクロリアクターの開発と応用，シーエムシー出版 (2008)，pp.47-59．
• 木下晴之，藤井輝夫（訳）："昆虫に学ぶMEMSデザイン"，昆虫ミメティクス～昆虫の設計に学ぶ～，NTS出版 (2008)，pp.657-668．
• 西川昌輝，中山秀謹，木村啓志，山本貴富喜，藤井輝夫，酒井康行："化学物質の体内動態を再現する複合細胞培養系の開発と利用"，月刊バイオインダストリー，2008年1月号 (2008)，pp.17-25．
• 酒井康行，藤井輝夫："ヒト体内動態予測を目指した新規In Vitro培養系 複合化・擬似３次元化・マイクロ化"，ファルマシア，Vol.44 (2008)，No9，pp.880-884.
• 帆秋利洋，福場辰洋，藤井輝夫，布施博之："海底表層でのバイオマーカーを利用したメタン漏洩検知技術の開発"，海洋と生物，Vol.30 (2008)，No.4，pp.505-515．
• 木村啓志，酒井康行，藤井輝夫："集積化マイクロ灌流培養デバイスによる臓器由来細胞の培養と計測"，動物実験代替のためのバイオマテリアルデバイス，シーエムシー出版 (2007)，pp.210-220．
• 木村啓志，酒井康行，藤井輝夫："膜を有する細胞培養デバイスとその応用"，機能材料，Vol.27 (2007)，pp.62-68．
• 木村啓志，酒井康行，藤井輝夫："集積型マイクロ流体デバイスによるヒト臓器由来細胞の機能解析"，細胞工学，Vol.26，No.12 (2007)，pp.1435-1440．
• 金田祥平，藤井輝夫："マイクロ流体デバイスによるバイオ分析"，精密工学会誌，Vol.72，No. 8 (2006)，pp.973-976．
• 藤井輝夫："海洋における現場計測分析技術の新展開.総説."，月刊海洋，Vol.38，No.12 (2006)，pp.825-830．
• 福場辰洋，宮地輝光，山本貴富喜，藤井輝夫："現場型遺伝子解析装置"IISA-Gene"の開発"，月刊海洋，Vol.38，No.12 (2006)，pp.871-876．
• 山本貴富喜，藤井輝夫："シリコーンゴムチップを用いた反応分析用マイクロチップの開発とその応用"，マイクロリアクタテクノロジー，NTS 出版 (2005)，pp.175-186．
• 山本貴富喜，藤井輝夫："シリコーンゴム製マイクロ流体チップのバイオ応用"，ケミカルエンジニヤリング，Vol.50，No.11 (2005)，pp.64-71．
• 藤井輝夫："マイクロ流体デバイス総論"，電子材料11月号 (2005)，pp.18-21．

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原著論文

• Kim, S. H., Ito, H., Kozuka, M., Takagi, H., Hirai, M., and Fujii, T.: "Cancer marker-free enrichment and direct mutation detection in rare cancer cells by combining multi-property isolation and microfluidic concentration", Lab on a Chip, Vol.19, No.5 (2019), pp.757-766.
• 立川冴子，金田祥平，久米村百子，佐藤竜偉，塚本拓野，藤井輝夫，鈴木孝明，藤田博之："三次元立体露光法を用いて作製したがん細胞浸潤過程観察用マイクロ流体デバイス"，電気学会論文誌E，Vol.138，No.9（2018），pp.435-440.
• Yamanaka, H., Komeya, M., Nakamura, H., Sanjo, H., Sato, T., Yao, M., Kimura, H., Fujii, T., and Ogawa, T.: "A monolayer microfluidic device supporting mouse spermatogenesis with improved visibility”, Biochemical and Biophysical Research Communications, Vol.500 (2018), pp.885-891.
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Integration of an oxygen sensor into a polydimethylsiloxane hepatic culture device for two-dimensional gradient characterization”, Sensors and Actuators B: Chemical, Vol.273 (2018), pp.1062-1069.
• Fukuba, T., Noguchi, T., Okamura, K., and Fujii, T.: "Adenosine triphosphate measurement in deep sea using a microfluidic device", Micromachine, Vol.9, No.8 (2018), 370.
• Nishikawa, S. M., Kim, S.-H., Luo, Z., Kirihara, T., Ikeuchi, Y., Fujii, T., and Levi, T.: "Biomimetic microfluidic neurons for bio-hybrid experiments", Artificial Life and Robotics, Vol.23 (2018), pp.402-408.
• Kojima, K., Nakamura, H., Komeya, M., Yamanaka, H., Makino, Y., Okada, Y., Akiyama, H., Torikai, N., Sato, T., Fujii, T., Kimura, H., and Ogawa, T.: "Neonatal testis growth recreated in vitro by two-dimensional organspreading", Biotechnology and Bioengineering, Vol.115 (2018), pp.3030-3041.
• Oishi, M., Kinoshita, H., Fujii, T., and Oshima, M.: "Phase-locked confocal micro-PIV measurement of three-dimensional flow structure transient droplet formation mechanism in T-shaped micro junction", Measurement Science and Technology, Vol.29 (2018), 115204.
• Kimura, H., Sakai, Y., and Fujii, T.: "Organ/body-on-a-chip based on microfluidic technology for drug discovery", Drug Metabolism and Pharmacokinetics, Vol.33 (2018), pp.43-48.
• Kim, S. H., Ito, H., Kozuka, M., Hirai, M., and Fujii, T.: "Localization of low-abundant cancer cells in a sharply expanded microfluidic step-channel using dielectrophoresis", Biomicrofluidics, Vol.11 (2017), 054114.
• Shinohara, M., Komori, K., Fujii, T., and Sakai, Y.: "Enhanced self-organization of size-controlled hepatocyte aggregates on oxygen permeable honeycomb microwell sheets", Biomedical Physics & Engineering Express, Vol.3 (2017), 45016.
• Komeya, M., Hayashi, K., Nakamura, H., Yamanaka, H., Sanjo, H., Kojima, K., Sato, T., Yao, M., Kimura, H., Fujii, T., and Ogawa, T.: "Pumpless microfluidic system driven by hydrostatic pressure induces and maintains mouse spermatogenesis in vitro", Scientific Reports, Vol.17 (2017), 15459.
• Kawada, J., Kaneda, S., Kirihara, T., Maroof, A., Levi, T., Eggan, K., Fujii, T., and Ikeuchi, Y.: "Generation of a motor nerve organoid with human stem cell-derived neurons", Stem Cell Reports, Vol.9, No.5 (2017), pp.1441-1449.
• Baccouche A., Okumura S., Sieskind R., Henry E., Aubert-Kato N., Bredeche N., Bartolo JF., Taly V., Rondelez Y., Fujii T., Genot A. J.: "Massively parallel and multiparameter titration of biochemical assays with droplet microfluidics", Nature Protocols 12, 1912 (2017), doi:10.1038/nprot.2017.092.
• Kaneda, S., Kawada, J., Akutsu, H., Ichida, J., Ikeuchi, Y., and Fujii, T.: "Compartmentalized embryoid body culture for induction of spatially patterned differentiation", Biomicrofluidics, Vol.11 (2017), 041101.
• Gines, G., Zadorin, A., Galas, J.-C., Fujii, T., Extevez-Torres, A., and Rondelez, Y.: "Microscopic Agents Programmed by DNA Circuits", Nature Nanotechnology (2017), advanced online publication, doi:10.1038/nnano.2016.299
• Leclerc, E., Kimura, K. Shinohara, M., Mathies D., Le Gall, M., Kido, A., Miyajima, A., Fuii, T. Sakai, Y.: "Comparison of the Transcriptomic Profile of Hepatic Human induced Pluripotent Stem like Cells Cultured in Petri and in a 3D Microscale Dynamic Environment", Genomics, Vol.109 (2017), pp.16-26
• Antfolk, M, Kim, S.-H., Koizumi, S., Fujii, T., and Laurell, T.: "Label-free single-cell separation and imaging of cancer cells using an integrated microfluidic system", Scientific Reports (2017), 7:46507 | DOI: 10.1038/srep46507
• Komeya, M., Hiroshi Kimura, H., Nakamura, H., Yokonishi, T., Sato, T., Kojima, K., Hayashi, K., Katagiri, K., Yamanaka, H., Sanjo, H., Yao, M., Kamimura, S., Inoue, K., Ogonuki, N., Ogura, A., Fujii, T., and Ogawa, T.: "Long-term ex vivo maintenance of testis tissues producing fertile sperm in a microfluidic device", Sci Rep., Vol. 19(6) (2016), pp. 2147232(8).
• Perret, G., Ginet, P., Tarhan, M. C., Baccouche, A., Lacornerie, T., Kumemura, M., Jalabert, L., Cleri, F., Lartigau, E. F., Kim, B. J., Karsten, S. L., Fujita, H., Rondelez, Y., Fujii, T., and Collard, D.: "Nano systems and devices for applications in biology and nanotechnology", Solid-State Electronics, Vol.115 (2016), pp.66-73.
• Kim, Y.J., Kim, S.H., Fujii, T., and T. Matsunaga, Y.: "Dual Stimuli-Responsive Smart Beads that allow "On-Off" Manipulation of Cancer Cells", Biomaterials Science, Vol.4 (2016), pp.953-957.
• Kim, S.-H., and Fujii, T.: "Efficient Analysis of a Small Number of Cancer Cells at the Single-cell Level using Electroactive Double-well Array", Lab on a Chip, Vol.16 (2016) pp.2440-2449, featured as Front Cover, p.2351, DOI: 10.1039/C6LC90066F
• Genot, A., Baccouche, A., Sieskind, R., Aubert-Kato, N., Bredeche, N., Bartolo, J.-F. Taly, V., Fujii, T., and Rondelez, Y.: "High-resolution mapping of bifurcations in nonlinear biochemical circuits", Nature Chemistry, Vol.8 (2016), pp.760-767.
• Park, J.-W., Kim, S.-H., Ito, T., Fujii, T., Kim, S.-Y., Laurell, T., Lee, S.-W. and Goda, K.: "Acoustofluidic harvesting of microalgae on a single chip", Biomicrofluidics, Vol.10 (2016), 034119.
• Levi, T., and Fujii, T.: "Microfluidic neurons, a new way in neuromorphic engineering?", Micromachines, Vol.7 (2016), 146, doi:10.3390/mi7080146.
• Montagne, K., Gines, G., Fujii, T., and Rondelez, Y.: "Boosting functionality of synthetic DNA circuits with tailored deactivation", Nature Communications, Vol.7 (2016), 13474, DOI: 10.1038/ncomms13474
• Horayama, M., Kabayama, K., Fujii, T., and Kimura, H.: "Spatial Chemical Stimulation Control in Microenvironment by Microfluidic Probe Integrated Device for Cell-based Assay", PLoS ONE, Vol.11, No.12 (2016), e0168158. doi:10.1371/journal. pone.0168158
• Kim, S. H., Antfolk, M., Kobayashi, M., Kaneda, S., Laurell, T., and Fujii, T.: "Highly efficient single cell arraying by integrating acoustophoretic cell pre-concentration and dielectrophoretic cell trapping", Lab on a Chip, Vol.15 (2015), pp.4356-4365.
• Kobayashi, M., Kim, S. H., Nakamura, H., Kaneda, S., and Fujii, T.: "Cancer cell analyses at the single cell-level using electroactive microwell array device", PLoS ONE, Vol.10(11) (2015), e0139980, pp.1-11.
• Provin, C., Nicolas, A., Grégoire, S., and Fujii, T.: "A Microfluidic Diffusion Cell for Fast and Easy Percutaneous Absorption Assays", Pharm Res, Vol. 32(8) (2015), pp.2704-12.
• Tozawa, H., Maekawa, T., Sakai, T., and Fujii, T.: "A novel effect of parylene-based surface coating on HepG2 cell func- tion", Materials Science and Engineering C, Vol.46 (2015), pp.190-194.
• Chowdhury, M.-M., Danoy, M., Rahman, F., Shinohara, M., Kaneda, S., Shiba, K., Fujita, N., Fujii, and T., Sakai, Y.: "Adhesion of pancreatic cancer cells in a liver-microvasculature mim- icking co-culture correlates with their propensity to form liver-specific metastasis in vivo", BioMed Research International, Vol.2014 (2014), 241571.
• Mogi, K., Sugii, Y., Yamamoto, T., and Fujii, T.: "Rapid fabrication technique of nano/micro uidic device with high me- chanical stability utilizing two-step soft lithography", Sensors and Actua- tors: B (Chemical), Vol.201 (2014), pp.407-412.
• Okamura, K., Noguchi, T., Hatta, M., Sunamura, M., Suzue, T., Kimoto, H., Fukuba, T., and Fujii, T.: "Development of a 128-channel multi-water-sampling system for under- water platforms and its application to chemical and biological monitor- ing", Methods in Oceanography, Vol.8 (2014), pp.75-90.
• Kimura, H., Ikeda, T., Nakayama, H., Sakai, Y., and Fujii, T.: "An on-chip small intestine-liver model for pharmacokinetic studies", Journal of Laboratory Automation (2014), 2211068214557812.
• Dinh, Q. H., Aubert, N., Noman, N., Fujii, T., Rondelez, Y., and Iba, H.: "An effective method for evolving reaction network in synthetic biochem- ical systems", IEEE Transactions on Evolutionary Computation (2014), DOI:10.1109/TEVC.2014.2326863.
• Aubert, N., Rondelez, Y., Fujii, T., and Hagiya, M.: "Enforcing delays in DNA computing systems", Natural Computing (2014), DOI:10.1007/s11047-014-9450-9.
• Nakayama, H., Kimura, H., Fujii, T., and Sakai, Y.: "Image-based evaluations of distribution and cytotoxicity of Irinotecan (CPT-11) in a multi-compartment micro-cell coculture device", Journal of Bioscience and Bioengineering, Vol.117 (2014), pp.756-762.
• Provin, C., Fukuba, T., Okamura, K., and Fujii, T.: "An integrated microfluidic system for manganese anomaly detection based on chemiluminescence: description and practical use to discover hydrothermal plumes near the Okinawa trough", IEEE Journal of Oceanic Engineering, Vol.30 (2013), pp.178-185.
• He, X., Kimura, H., and Fujii, T.: "A high-throughput device for patterned differentiation of embryoid bodies", Journal of Robotics and Mechatronics, Vol.25 (2013), pp.623-630.
• Kim, S. H., He, X., Kaneda, S., Kawada, J., Fourmy, D., Noji, H., and Fujii, T.: "Quantifying genetically inserted uorescent protein in single iPS cells to monitor nanog expression using electroactive microchamber arrays", Lab on a Chip, Vol.14 (2013), pp.730-736.
• Shinohara, M., Kimura, H., Montagne, K., Komori, K., Fujii, T., and Sakai, Y.: "Combination of microwell structures and direct oxygenation enables effcient and size-regulated aggregate formation of an insulin-secreting pancreatic β-cell line", Biotechnology Progress, Vol.30 (2013), pp.178-187.
• Hasatani, K., Leocmachb, M., Genot, A., Estevez-Torres, A., Fujii, T., and Rondelez, Y: "High-throughput and long-term observation of compartmentalized biochemical oscillators", Chemical Communications, Vol.49 (2013), pp.8090-8092.
• Padirac, A., Fujii, T., and Rondelez, Y.: "Nucleic acids for the rational design of reaction circuits", Current Opin- ion in Biotechnology, Vol.24 (2013), pp.575-580.
• Genot, A., Fujii, T., and Rondelez, Y.:"In vitro regulatory models for systems biology", Biotechnology Advanc- es, Vol.31 (2013), pp.789-796.
• Aubert, N., Mosca, C., Fujii, T., Hagiya, M., and Rondelez, Y.: "Computer-assisted design for scaling up systems based on DNA reac- tion networks", Journal of the Royal Society Interface, Vol.11 (2013), 20131167.
• Genot, A., Fujii, T., and Rondelez, Y.:"Scaling down DNA circuits with competitive neural networks", Journal of the Royal Society Interface, Vol.10 (2013), 20130212.
• Kim, S. H., Yoshizawa, S., Takeuchi, S., Fujii, T., and Fourmy, D.: "Ultra-high density protein spots achieved by on chip digitalized protein synthesis", Analyst, Vol.138 (2013), pp.4663-4669.
• Collard, D., Kim, S. H., Osaki, T., Kumemura, M., Kim, B., Fourmy, D., Fujii, T., Takeuchi, S., Karsten, S. L., and Fujita, H.:"Nano bioresearch approach by microtechnology", Drug Discovery Today, Vol.18, No.11/12 (2013), pp.552-559.
• Yamaoka, S., Ito, N., Ohka, S., Kaneda, S., Nakamura, H., Agari, T., Ma- satani, T., Nakagawa, K., Okada, K., Okadera, K., Mitake, H., Fujii, T., and Sugiyama, M.: "Involvement of rabies virus phosphoprotein gene in neuroinvasiveness", Journal of Virology, Vol.87, No.22 (2013), pp.12327-12338.
• Nojima, T., Kaneda, S., Kimura, H., Yamamoto, T., and Fujii, T.: "Application of cell-free expression of GFP for evaluation of microsystems", Frontiers in Bioscience, Vol.17 (2012), pp.1931-1939.
• Kaneda, S., Ono, K., Fukuba, T., Nojima, T., Yamamoto, T., and Fujii, T.: "Changing the surface property in PDMS-glass hybrid microfluidic devices", Analytical Sciences, Vol.28 (2012), pp.39-44.
• Chowdhury,M. M., Kimura, H., Fujii, T., and Sakai, Y.: "Induction of alternative fate other than default neuronal fate of embryonic stem cells in a membrane-based two-chambered microbioreactor by cell-secreted BMP4", Biomicrofluidics, Vol.6 (2012), 014117.
• Komori, K., Fujii, S., Montagne, K., Nakamura, H., Kimura, H., Otake, K., Fujii, T., and Sakai, Y.: "Development of a well-of-the-well system-based embryo culture plate with an oxygen sensing photoluminescent probe", Sensors and Actuators B: Chemical, Vol.162 (2012), pp.278-283.
• Oishi, M., Utsubo, K., Kinoshita, H., Fujii, T., and Oshima, M.: "Continuous and simultaneous measurement of the tank-treading motion of red blood cells and the surrounding flow using translational confocal micro-particle image velocimetry (micro-PIV) with sub-micron resolution", Measurement Science and Technology, Vol.23 (2012), 035301.
• Hamon, M., Hanada, S., Fujii, T., and Sakai, Y.: "Direct oxygen supply with polydimethylsiloxane (PDMS) membranes induces a spontaneous organization of thick heterogeneous liver tissues from rat fetal liver cells in vitro", Cell Transplantation, Vol.21 (2012), pp.401-410.
• Matsui, H., Takeuchi, S., Osada, T., Fujii, T., and Sakai, Y.: "Enhanced bile canaliculi formation enabling direct recovery of biliary metabolites of hepatocytes in 3D collagen gel microcavities", Lab on a Chip, Vol.12 (2012), pp.1857-1864.
• Padirac, A., Fujii, T., and Rondelez, Y.: "Quencher-free multiplexed monitoring of DNA reaction circuits", Nucleic Acid Research, Vol.40, No.15 (2012), e118.
• Kawada, J., Kimura, H., Akutsu, H., Sakai, Y., and Fujii, T.: "Spatiotemporally controlled delivery of soluble factors for stem cell differentiation", Lab on a Chip, Vol.12 (2012), pp.4508-4515.
• Desbois, L., Padirac, A., Kaneda, S., Genot, A., Rondelez, Y., Hober, D., Collard, D., and Fujii, T.: "A microfluidic device for on-chip agarose microbead generation with ultralow reagent consumption", Biomicrofluidics, Vol.6 (2012), 044101.
• Genot, A., Fujii, T., and Rondelez, Y.: "Computing with Competition in Biochemical Networks", Physical Review Letters, Vol.109 (2012), e208102.
• Padirac, A., Fujii, T., and Rondelez, Y.: "Bottom-up construction of in vitro switchable memories", Proceedings of the National Academy of Science (2012), E3212-3220.
• Plessy, C., Desbois, L., Fujii, T., and Carninci, P.: "Population transcriptomics with single-cell resolution: A new field made possible by microfluidics", BioEssays (2012), pp.131-140.
• Ginet, P., Montagne, K., Akiyama, S., Rajabpour, A., Taniguchi, A., Fujii, T., Sakai, Y., Kim, B.-J., Fourmy, D., and Volz, S.: "Towards single cell heat shock response by accurate control on confinement with an on-chip microwire electrode", Lab on a Chip, Vol.11 (2011), pp.1513-1520.
• Kim, S. H., Yamamoto, T., Fourmy, D., and Fujii, T.: "An electroactive microwell array for trapping and lysing single-bacterial cells", Biomicrofluidics, Vol.5 (2011), 024114.
• Nakao, Y., Kimura, H., Sakai, Y., and Fujii, T.: "Bile canaliculi formation by aligning rat primary hepatocytes in a microfluidic device", Biomicrofluidics, Vol.5 (2011), 022212.
• Kaneda, S., Ono, K., Fukuba, T., Nojima, T., Yamamoto, T., and Fujii, T.: "A rapid method for optimizing running temperature of electrophoresis through repetitive on-chip CE operations", International Journal of Molecular Sciences, Vol.12 (2011), pp.4271-4281.
• Niino, T., Hamajima, D., Montagne, K., Oizumi, S., Naruke, H., Huang, H., Sakai, Y., Kinoshita, H., and Fujii, T.: "Laser sintering fabrication of three-dimensional tissue engineering scaffolds with a flow channel network", Biofabrication, Vol.3 (2011), 034104.
• Provin, C., and Fujii, T.: "Reaction-diffusion phenomena in a PDMS matrix can modify its topography", Lab on a Chip, Vol.11 (2011), pp.2948-2954.
• Evenou, F., Hamon, M., Fujii, T., Takeuchi, S., and Sakai, Y.: "Gas-permeable membrane and co-culture with fibroblasts enable high-density hepatocyte culture as multilayered liver tissues", Biotechnology Progress, Vol.27 (2011), pp.1146-1153.
• Ohishi, M., Kinoshita, H., Fujii, T., Oshima, M.: "Simultaneous measurement of internal and surrounding flow of a moving droplet using multicolour confocal micro-particle image velocimetry (micro-PIV)", Measurement Science and Technology, Vol.22 (2011), 105401.
• Kurakazu, T., Kuribayashi-Shigetomi, K., Matsunaga, Y. T., Kimura, H., Fujii, T., Sakai, Y., and Takeuchi, S.: "Selective retrieval of microparticles in microchambers using electrolytically generated bubbles for cell array", Sensors and Actuators B: Chemical, Vol.159 (2011), pp.229-233.
• Evenou, F., Couderc, S., Kim, B.-J., Fujii, T., and Sakai, Y.: "Microfibrillated cellulose sheets coating oxygen-permeable PDMS membranes induce rat hepatocytes 3D aggregation into stably-attached 3D hemispheroids", Journal of Biomaterials Science, Polymer Edition, Vol.22 (2011), pp.1509-1522.
• Ostrovidov, S., Sakai, Y., and Fujii, T.: "Integration of a pump and an electrical sensor into a membrane-based PDMS microbioreactor for cell culture and drug testing", Biomedical Microdevices, Vol.13 (2011), pp.847-864.
• Fukuba, T., Aoki, Y., Fukuzawa, N., Yamamoto, T., and Fujii, T.: "Microfluidic in situ analyzer for ATP quantification in ocean environments", Lab on a Chip, Vol.11 (2011), pp.3508-3515.
• Kim, S. H., Yamamoto, T., Fourmy, D., and Fujii, T.: "Electroactive microwell arrays for highly efficient single-cell trapping and analysis", Small, Vol.7 (2011), pp.3239-3247.
• Fukuba, T., Miyaji, A., Okamoto, T., Yamamoto, T., Kaneda, S., and Fujii, T.: "Integrated in situ genetic analyzer for microbiology in extreme environments", RSC Advances, Vol.1 (2011), pp.1567-1573.
• Leclerc, E., Kinoshita, H., Fujii, T., and Barthes-Biesel, D.: "Transient ow of microcapsules through convergent-divergent microchannels", Microfluidics and Nanofluidics, Vol.12 (2011), pp.761-770.
• 木村良範，金田祥平，藤井輝夫，村田智："DNAを用いたフォトニック結晶の階層的結晶成長制御"，電気学会論文誌E，Vol.131 (2011)，pp.286-291．
• 野口拓郎，岡村慶，八田万有美，紀本英志，鈴江崇彦，石橋純一郎，山中寿朗，藤井輝夫："現場型マンガン分析装置の小型軽量化と設置連続観測の実例"，物理探査，Vol.64 (2011)，pp.291-298．
• Kaneda, S., Ono, K., Fukuba, T., Nojima, T., Yamamoto, T., and Fujii, T.: "Pneumatic handling of droplets on-demand on a microfluidic device for seamless processing of reaction and electrophoretic separation", Electrophoresis, Vol.31, Issue 22 (2010), pp.3719-3726.
• Ono, K., Kaneda, S., Shiraishi, T., and Fujii, T.: "Optofluidic tweezer on a chip", Biomicrofluidics, Vol.4, Issue 4 (2010), 043012.
• Montagne, K., Plasson, R., Sakai, Y., Fujii, T., Rondelez, Y.: "Programming an in vitro DNA oscillator using a molecular networking strategy", Molecular Systems Biology, Vol.7 (2010), 466
• Chowdhury, M.M., Katsuda, T., Montagne, K., Kimura, H., Nobuhiko, K., Akutsu, H., Ochiya, T., Fujii, T., and Sakai, Y.: "Enhanced effects of secreted soluble factor preserve better pluripotent state of embryonic stem cell culture in a membrane-based compartmentalized micro-bioreactor", Biomedical Microdevices., Vol.12, No.6 (2010), pp.1097-1105.
• Kimura, H., Takeyama, H., Komori, K., Yamamoto, T., Sakai, Y., and Fujii, T.: "Microfluidic device with integrated glucose sensor for cell-based assay in toxicology", Journal of Robotics and Mechatronics, Vol.22, No.5 (2010), pp.594-600.
• Li, F.-C., Kinoshita, H., Li, X.-B., Oishi, M., Fujii, T., Oshima, M.: "Creation of very-low-Reynolds-number chaotic fluid motions in microchannels using viscoelastic surfactant solution", Experimental Thermal and Fluid Science, Vol.34 (2010), pp.20-27.
• Pereira-Rodrigues, N., Poleni, P.-E., Guimard, D., Arakawa, Y., Sakai, Y., and Fujii, T.: "Modulation of hepatocarcinoma cell morphology and activity by parylene-C coating on PDMS", PLoS ONE, Vol.5, Issue 3 (2010), e9667.
• Evenou, F., Fujii, T., and Sakai, Y.: "Spontaneous formation of highly functional three-dimensional multilayer from human hepatoma Hep G2 cells cultured on an oxygen-permeable polydimethylsiloxane membrane", Tissue Engineering Part C: Methods, Vol.16, No.2 (2010), pp.311-318.
• Evenou, F., Fujii, T., and Sakai, Y.: "Spontaneous formation of stably-attached and 3D-organized hepatocyte aggregates on oxygen-permeable polydimethyl-siloxane membranes having 3D microstructures", Biomedical Microdevices, Vol.12 (2010) pp.465-475.
• Mogi, K., and Fujii, T.: "A microfluidic device for stepwise size-based capturing of suspended particles", Journal of Micromechanics and Microengineering, Vol.20 (2010), 055015.
• Yamamoto, T., and Fujii, T.: " Nanofluidic single-molecule sorting of DNA: A new concept in separation and analysis of biomolecule toward ultimate level performance", Nanotechnology, Vol. 21, No. 39 (2010), 395502.
• 木村啓志，庄野裕基，Nazare Pereira-Rodrigues，山本貴富喜，酒井康行，藤井輝夫："オンチップグルコースセンサによる細胞活性オンライン計測の検討"，電気学会論文誌E，Vol.130，No.10 (2010)，pp.476-483．
• Sasaki, S., Okamoto, T., and Fujii, T.: "Bioluminescence intensity difference observed in luminous bacteria groups with different motility", Letters in Applied Microbiology, Vol.48 (2009), pp.313-317.
• Grenier, K., Dubuc, D., Poleni, P.-E., Kumemura, M., Toshiyoshi, H., Fujii, T., and Fujita, H.: "Integrated broadband microwave and microfluidic sensor dedicated to bioengineering", IEEE Transactions on Microwave Theory and Techniques, Vol. 57, No.12 (2009), pp.3246-3253.
• Kimura, H., Nakamura, H., Akai, T., Yamamoto, T, Hattori, H., Sakai, Y., and Fujii, T.: "On-chip single embryo coculture with microporous-membrane-supported endometrial cells", IEEE Transaction on Nanobioscience, Vol.8, No.4 (2009), pp.318-324.
• Montagne, K., Komori, K., Yang, F., Tatsuma, T., Fujii, T., and Sakai, Y.: "A micropatterned cell array with an integrated oxygen-sensitive fluorescent membrane", Photochemical and Photobiological Sciences, Vo.8, Issue 11(2009), pp. 1529-1533.
• Inui, H., Mizuno, J., Nakamura, H., Watanabe, Y., Akaishi, K., Kikuchi, E., Nakano, M., Anzai, K., Ostrovidov, S., Sakai, Y., and Fujii, T.: "Development of a microdevice for ART and its initial application to human embryo culture", J. Fertilization and Implantation, Vol.26, No.1 (2009), pp.151-154.
• Park, K. D, Lee, S. W., Takama, N., Fujii, T., and Kim, B. J.: "Arbitrary-shaped nanochannels fabricated by polymeric deformation to achieve single DNA stretching", Microelectronic Engineering, Vol. 86 (2009), pp. 1385-1388, DOI: 10.1016/j.mee.2009.02.003
• Fukuba, T., Provin, C., Okamura, K., and Fujii, T.: "Development and evaluation of microfluidic device for Mn ion quantification in ocean environments", IEEJ Transaction on Sensors and Micromachines, Vol.129 (2009), No.3, pp.69-72.
• Aoki, Y., Fukuba, T., Yamamoto, T., and Fujii, T.: "Design optimization and evaluation of a bioluminescence detection part on a microfluidic device for in situ ATP quantification", IEEJ Transaction on Sensors and Micromachines, Vol.129 (2009), No.3, pp.73-76.
• Lee, S.-W., Kinoshita, H., Noji, H., Fujii, T., and Yamamoto, T.: "Biomolecular nano-flow-sensor to measure near-surface flow", Nanoscale Research Letters, (2009), 10.1007/s11671-009-9479-3.
• 乾裕昭，水野仁二，中村寛子，渡邉百合，赤石一幸，菊地瑛子，中野真，安齋憲，Serge Ostrovidov，酒井康行，藤井輝夫："ART のためのマイクロデバイスの開発とヒト受精卵in vitro 培養への適用"，日本受精着床学会雑誌，Vol. 26，No.1 (2009)，pp.151-154．
• 木村啓志，中村寛子，岩井孝介，山本貴富喜，竹内昌治，藤井輝夫，酒井康行："ダイナミックマイクロアレイを用いた胚操作自動化の試み"，電気学会論文誌Ｅ，Vol.129，No.8 (2009)，pp.245-251．
• 木村啓志，中山秀謹，山本貴富喜，酒井康行，藤井輝夫："体内毒性試験へ向けたオンチップ小腸－肝臓由来細胞共培養システムの開発"，電気学会論文誌Ｅ，Vol.129，No.8 (2009)，pp.252-258．
• Arata, F. H., Nojima, T., Gillot, F., Fujii, T. and Fujita, H.: " Milli-seconds dynamics of fluorescent proteins denaturing revealed by femto-litter container heated by micro fabricated thin film heater", Lab on a Chip, Vol.8 (2008), pp.1436-1440.
• Cho, Y.H., Lee, S.W., Kim, B.J., and Fujii, T.: " Fabrication of silicon dioxide nanochannel arrays without nanolithography for manipulation of DNA molecule", Microelectronic Engineering, Vol.85/5-6 (2008), pp.1275-1277.
• Provin, C., Takano, K., Yoshida, T., Sakai, Y., Fujii, T., and Shirakashi R.: "Low O2 metabolism of HepG2 cells cultured at high density in a 3D microstructured scaffold", Biomedical Microdevices (2008), published online, DOI 10.1007/s10544-008-9254-8.
• Yamamoto, T, Hino, M., Kakuhata, R., Nojima, T, Shinohara, T., Baba, Y., and Fujii, T.: "Evaluation of cell-free protein synthesis using PDMS-based microreactor arrays", Analytical Sciences, Vol.24 (2008), pp.243-246.
• Erkan, N., Shinohara, K., Okamoto, K., Okamoto, T., and Fujii, T.: "Measurement of two overlapped velocity vector fields in microfluidic devices using time-resolved PIV", Journal of Visualization, Vol.11, No.1 (2008), pp.33-34.
• Kimura, H., Yamamoto, T., Sakai, H., Sakai, Y., and Fujii, T.: "An integrated microfluidic system for long-term perfusion culture and on-line monitoring of intestinal tissue models", Lab on a Chip, Vol.8, issue 5 (2008), pp.741-746.
• Cho, Y. H., Lee, S. W., Fujii, T. and Kim, B. J.: "Fabrication of silicon dioxide nanochannel arrays without nanolithography for manipulation of DNA molecule", Microelectronic Engineering, Vol.85 (2008), pp.1275-1277.
• Senez, V., Lennon, E., Ostrovidov, S., Yamamoto, T., Fujita, H., Sakay, Y., and Fujii, T.: "Integrated 3-D silicon electrodes for electrochemical sensing in microfluidic environments: Application to single-cell characterization", IEEE Sensors Journal, Vol. 8, No.5 (2008), pp.548-557.
• Nojima, T., Kimura, H., and Fujii, T.: "Cell-free protein synthesis conducted by template DNA with repetitive sequence", Chemistry Letters, Vol.37, No.6 (2008), pp.648-649.
• Provin, C., Takano, K., Sakai, Y., Fujii, T. and Shirakashi, R.: "A method for the design of 3D scaffolds for high-density cell attachment and determination of optimum perfusion culture conditions", Journal of Biomechanics, Vol.41 (2008), pp.1436-1449.
• Pereira Rodrigues, N., Sakai, Y., and Fujii, T.: "Cell-based microfluidic biochip for the electrochemical real-time monitoring of glucose and oxygen", Sensors and Actuators B, Vol.132 (2008), pp.608-613.
• Nojima, T., Yamamoto, T., Kimura, H., and Fujii, T.: "Polymerase chain reaction-based biochemical logic gate coupled with cell-free transcription/translation of green fluorescent protein as a report gate", Chemical Communications, No.32 (2008), pp.3771-3773.
• 吉田知水，白樫了，高野清，Christphe Provin，酒井康行，藤井輝夫："高密度培養を目的としたHepG2細胞のグルコース・酸素代謝率および細胞接着率の定常測定"，日本機械学会論文集B，Vol.74，No.747 (2008)，pp.2380-2386.
• Kinoshita, H., Kaneda, S., Fujii, T. and Oshima, M.: "Three-dimensional Measurement and Visualization of Internal Flow of a Moving Droplet using Confocal Micro-PIV", Lab on a Chip, Vol. 7, issue 3 (2007), pp.338-346.
• Nakayama, H., Kimura, H., Komori, K., Fujii, T., and Sakai, Y.: "Development of a Multi-Compartment Micro-Cell Culture Device as a Future on-Chip Human: Fabrication of a Three-Compartment Device and Immobilization of Rat Mature Adipocytes for the Evaluation of Chemical Distributions", Journal of Robotics and Mechatronics, Vol.19 (2007), pp.544-549.
• Kimura, H. , Nishikawa, M., Yamamoto, T., Sakai, Y., and Fujii, T.: " Microfluidic Perfusion Culture of Human Hepatocarcinoma", Journal of Robotics and Mechatronics, Vol.19 (2007), pp.550-556.
• Nojima, T., Kaneda, S., and Fujii, T.: " On-chip Capillary Electrophoresis Fractionation of DNA Construct for Cell-free Protein Expression", Chemistry Letters, Vol.36, No.11 (2007), pp.1346-1347.
• Cho, Y.H., Lee, S.W., Kim, B.J., and Fujii, T.: " Fabrication of silicon dioxide submicron channels without nanolithography for single biomolecule detection", Nanotechnology, Vol.18 (2007), 465303.
• Yamamoto, T., and Fujii, T.: " Active immobilization of biomolecules on a hybrid three-dimensional nanoelectrode by dielectrophoresis for single-biomolecule study", Nanotechnology, Vol. 8 (2007), 495503.
• Hwang, M.T., Cho, Y.H., Lee, S.W., Takama, N., Fujii, T. and Kim, B.J.: "Nanochannels for Manipulation of DNA Molecule using Various Fabrication Molecule", Journal of Semiconductor Technology and Science, Vol.7, No.4 (2007), pp.254-259.
• Nishikawa, M., Kojima, N., Komori, K., Yamamoto, T., Fujii, T., and Sakai, Y.: "Enhanced maintenance and functions of rat hepatocytes induced by combination of on-site oxygenation and coculture with fibroblasts", Journal of Biotechnology, Vol. 133 (2007), pp. 253-260.
• Leclerc, E., David, B., Griscom, L., Lepioufle, B., Fujii, T., Layrolle, P., and Legallaisa, C.: "Study of Osteoblastic Cells in a Microfluidic Environment", Biomaterials, Vol.27, Issue 4 (2006), pp.586-595.
• Kraus, T., Verpoorte, E., Linder, V., Franks, W., Hielemann, A., Heer, F., Hafizovic, S., Fujii, T., de Rooij, N., and Koster, S.: "Characterization of a Microfluidic Dispensing System for Localized Stimulation of Celluar Networks", Lab on a Chip, Vol.6 (2006), pp.218-229.
• Cho, Y. H., Yamamoto, T., Sakai, Y., Fujii, T., and Kim, B. J.: "Development of Microfluidic Device for Electrical/Physical Characterization of Single Cell", Journal of Microelectromechanical Systems, Vol.15, Issue 2 (2006), pp.287-295.
• Lee, S. W., Yamamoto, T., Noji, H., and Fujii, T.: "Chemical Delivery Microsystem for Single-Molecule Analysis Using Multilaminar Continuous Flow", Enzyme and Microbial Technology, Vol. 39, Issue 3 (2006), pp.519-525.
• Senez, V., Akalin, T., Bourzgui, N.E., Bocquet, B., Fujii, T., Lennon, E., and Yamamoto, T.: "Top-Down' Approaches for the Study of Single-Cells: Micro-Engineering and Electrical Phenotype", Advances in Science and Technology, Vol.53 (2006), pp.97-106.
• 趙永學，高間信行，山本貴富喜，藤井輝夫，Beomjoon Kim："生体単一細胞の測定用のMEMS デバイスの開発"，電気学会論文誌Ｅ (2006)，pp.89-94．
• 鈴木幸人，小石川雅紀，越塚誠一，岡本拓士，金子直嗣，高松敦子，藤井輝夫："MPS 法によるマイクロ流路内細胞付着流れのシミュレーション"，日本機械学会論文集B，Vol.72，No.721 (2006)，pp.2109-2116．
• Nojima, T., Lin, A. C., and Fujii, T.: "Determination of the Termination Efficiency of the Transcription Terminator Using Different Fluorescent Profiles in Green Fluorescent Protein Mutants", Analytical Sciences, Vol.21, No.12 (2005), pp.1479-1481.
• 福場辰洋，山本貴富喜，長沼毅，藤井輝夫："極限環境微生物学のための現場型微生物遺伝子解析装置の開発"，海の研究，Vol.14，No.2 (2005)，pp.361-368．

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招待講演、依頼講演

• 藤井輝夫："第３期海洋基本計画を進めるために"，日本海洋政策学会創立10周年記念シンポジウム，東京（2018）．
• 金秀炫，藤井輝夫："希少細胞の高効率１細胞解析を可能とするElectroactive Microwell Array の開発"，第2回Liquid Biopsy研究会，東京（2018）．
• Fujii, T.: "Innovative Microfluidic Platforms − from Single-cell Analysis to Molecular Systems", The 10th International Symposium on Microchemistry and Microsystems (ISMM2018), Busan, Korea (2018).
• 藤井輝夫："Organ-on-a-Chip：マイクロ流体アプローチが拓く新展開"，第114回日本内科学会総会，東京（2017）．
• Fujii, T.: "Microfluidics for Innovative Biological Experimentations − from Single Cell Analysis to Organ-on-a-Chip", The 9th International Symposium on Microchemistry and Microsystems (ISMM 2017), Tasmania, Australia (2017).
• Fujii, T.: "Microfluidics as Innovative Technology for Biological Experimentations", The 3rd Symposium Max Planck-the University of Tokyo Center for Inflammology, Berlin, Germany (2016).
• 金田祥平："細胞培養・分離・解析用マイクロ流体技術"，次世代マイクロ化学チップコンソーシアム第37回研究会，東京 (2016)．
• 藤井輝夫："マイクロ流体デバイス技術が拓く医療バイオ分野の新展開"，第12回骨免疫ワークショップ，東京 (2016)．
• 藤井輝夫："Small Meets Large: Connecting Microfluidics with Marine Ecology"，OISTミニシンポジウム，沖縄 (2015)．
• 藤井輝夫："マイクロ流体デバイスを用いた細胞培養技術"，筋萎縮性側索硬化症（ALS）新規治療法開発をめざした病態解明平成27年度ワークショップ，東京 (2015)．
• 藤井輝夫："細胞・組織工学のための高解像度バイオ技術"，ライフサイエンス技術部会材料分科会講演会，東京 (2015).
• Fujii, T.: "Micro uidic systems for spatiotemporal modulation of cells and tissues", the 4th International Workshop on Analytical Miniaturization and NANO- technologies (WAM NANO2014), Copenhagen, Denmank (2014).
• Fujii, T.: "Micro uidic approaches to high resolution analysis and control of cells and tissues", the 4th International Conference on Micro uidic Chip and Micro/NanoScale Bioseparation Analysis, Tsukuba, Japan (2014).
• Fujii, T.: "Device technologies for cell and tissue analysis", International Confer- ence on Solid-State Devides and Materials (SSDM2014), Wuhan, China (2014).
• Fujii, T.: "Micro uidic technologies for cell and tissue analyses", the 27th Inter- national Microprocesses and Nanotechnology Conference (MNC 2014), Fukuoka, Japan (2014).
• Kim, S. H.: "Electroactive microwell array allows quantitative measurement of intra- cellular materials of individual cells", 9th Annual International Electro- materials Science Symposium, North Wollongong, Australia (2014).
• 藤井輝夫："マイクロ流体システムのバイオ・環境分野への応用"，光応用工学特別研究会，東京 (2014)．
• Fujii, T.: "Lab-on-a-Chip Technologies – Pushing the limit of understanding", Lab- on-a-Chip Asia, Singapore (2013).
• Fujii, T.: "Single cell electrical manipulation allows direct intracellular ATP measurements", Cold Spring Harbor Laboratory Meeting, New York, USA (2013).
• Fujii, T.: "Large-scale microchamber array allows high-throughput and parallelized readouts of cellular heterogeneity", Single Cell Analysis Summit 2013, San Diego, USA (2013).
• 藤井輝夫："ナノバイオのためのデバイス技術と医療分野への応用"，GRENEナノバ イオ講座，東京 (2013)．
• Fujii, T.: "Heterogeneity matters? - Microfluidic approaches to Hi-Fi analyses", The 4th International Conference on Foundations of Systems Biology in Engineering (FOESBE2012), Tsuruoka, Japan (2012).
• Fujii, T.: "Microfluidic approaches to Hi-Fi cell and tissue biology", IEEE EMBS Micro and Nanotechnology in Medicine Conference, Hawai, USA (2012).
• Genot, A., Fujii, T., and Rondelez, Y.: "An in-vitro toolbox to model gene regulatory networks", 15th International Biotechnology Symposium (IBS 2012), Daegu, Korea (2012).
• Genot, A., Bath, J., Fujii, T., Rondelez, Y., and Tuberfield, A.: "Programming matter(s): from Turing to Kilby and back to E.Coli", 9th Annual Conference on the Foundations of Nanoscience (FNANO 2012), Snowbied, USA (2012).
• 藤井輝夫："マイクロ流体デバイスが拓くバイオ・環境関連新技術"，JIEP最先端実装技術シンポジウム，東京 (2012)．
• Padirac, A., Montagne, K., Plasson, R., Fujii, T., and Rondelez, Y.: "Building complex dynamic behaviors in a tube", 49th SEIBUTSU-BUTSURI Annual Meeting, Himeji, Japan (2011), S17.
• Kimura, H., and Fujii, T.: "Microfluidic spatial control for cell-based assay", Nagasaki Symposium on Malaria Biology 2011, Nagasaki, Japan (2011).
• 木村啓志，藤井輝夫："マイクロ流体デバイスを応用した細胞培養環境操作"，第31回キャピラリー電気泳動シンポジウム，山形 (2011)．
• Fujii, T.: "Cell and tissue cultures in control - From embryos to stem cells", Lorentz Workshop on Micro- and Nanofluidics for Cell Biology, Leiden, The Netherlands (2010).
• Fukuba, T., Provin, C., Kinoshita, H., Kusunoki, T., Kyo, M., Shitashima, K., Okamura, K., and Fujii, T.: "Miniaturization of in situ chemical/biochemical analyzers - Application of microfluidic technology", International Symposium on the Deepest Environment on Earth, Chiba, Japan (2010).
• 藤井輝夫："マイクロ流体デバイスのマイクロ化!?に向けて"，第21回 化学とマイクロ・ナノシステム研究会（21st CHEMINAS），東京 (2010)．
• 木村啓志，山本貴富喜，竹内昌治，酒井康行，藤井輝夫："MEMS技術を応用した細胞機能測定"，定量生物学の会第1回年会，東京 (2009)，pp.27-28．
• 福場辰洋，藤井輝夫："海洋探索における最新マイクロ流体デバイスの利用と展望～深海フィールド型遺伝子解析装置の開発にみる～"，第59回日本電気泳動学会シンポジウム，東京 (2009)．
• Fujii, T.: "Cells and Tissues on a Device: Showcasing Their Integrative Dynamics in vitro", MicroTAS2008 conference, San Diego, USA (2008).
• Fukuba, T., and Fujii, T.: " Microfluidic in situ Biological and Chemical Sensing", 7th International Symposium on Subsurface Microbiology, Shizuoka, Japan (2008).
• 福場辰洋："マイクロ加工技術を応用した現場型生物・化学分析装置の開発と運用"，定量生物学の会，第42回海中海底工学フォーラム，東京 (2008)．
• 木村啓志，山本貴富喜，竹内昌治，酒井康行，藤井輝夫："MEMS技術を応用した細胞機能測定"，定量生物学の会，第１回年会，東京 (2008)．
• 山本貴富喜，Kim Soo Hyeon，木村啓志，福場辰洋，藤井輝夫："マイクロ流体デバイスでの流体力学および電気力学的細胞操作"，COMSOL Conference Tokyo 2008，東京 (2008)．
• 木村啓志，山本貴富喜，竹内昌治，酒井康行，藤井輝夫："細胞機能アッセイへ向けたマイクロ流体デバイス"，4大学ナノ・マイクロファブリケーションコンソｰシアム拠点形成シンポジウム，神奈川 (2008)．
• Fujii, T.: " Microfluidic Devices and Systems for Cell/Tissue Engineering Applications", The 10th US-Japan Cellular and Gene Therapy Conference on Nanobiotechnology, Bethesda, Maryland, USA (2007).
• Fukuba, T., and Fujii, T.: "Microfluidics-based in situ Biological and Chemical Sensing - Towards Integrated and Real-time Measurement in Deep Sea -", Proceedings of International Symposium on Underwater Technology 2007 and International Workshop on Scientific Use of Submarine Cables and Related Technologies (UT07_SSC07), Tokyo, Japan (2007).
• Kimura, H., and Fujii, T.: "An Integrated Microfluidic Platform for in vitro Tissue Models", 1st Asian Biomaterials Congress, Tsukuba, Japan (2007).
• Fujii, T.: "Building Microfluidic Platforms for in vitro Tissue Models", Gordon Research Conference on Physics & Chemistry of Microfluidics, Waterville Valley, New Hampshire, USA (2007).
• Fujii, T.: "Integrated Microfluidic Systems for Cell/Tissue Culture Applications", Third International Symposium on Biomedical Systems Innovation, Tokyo (2006).
• Yamamoto, T. and Fujii, T.: "Simulation and Experimental Demonstration of Multilaminar Flow Control Capability for Drug Delivery in Microfluidic Device", COMSOL conference of Tokyo (2006).
• Fujii, T.: Microfluidic Devices for Cell/Tissue Culture, UT Symposium on NanoBio Integration, Tokyo (2006).
• 藤井輝夫："マイクロ流体デバイス　―新しい生命科学のツールとして―"，東京大学生命科学研究ネットワークシンポジウム，東京 (2006)．
• 木下晴之，大島まり，藤井輝夫："共焦点マイクロPIV の開発とそれを用いた液滴内部流動の３次元計測"，第14回化学とマイクロ・ナノシステム研究会（14th CHEMINAS） (2006)．
• Fujii, T.: "Processing and Analyzing Biological Samples in Microchannels", The 3rd International Conference on Microchannels and Minichannels (ICMM2005), Toronto, Canada (2005) ICMM2005-75083.
• Fujii, T.: "Biocompatible and Biodegradable Microfluidic Devices for Tissue Engineering Applications", 3rd International Conference on Materials for Advanced Technologies (ICMAT2005), Singapore (2005).
• Fujii, T.: "Integrated Microfluidic Systems for Cell and Tissue Engineering", 2005 International Conference on Solid State Devices and Materials, Kobe, Japan (2005).

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学会発表

• Lobato-Dauzier, N., Deteix, R., Fujii, T., and Genot, A. J.： "Silicon droplet chamber for quantitative imaging of biochemical systems"， 第2回分子ロボティクス年次大会，東京（2019）．
• 奥村周，A. Genot，藤井輝夫："PEN DNA toolbox を利用したDNA 濃度パターンの線形分離システムの構築"，第2回分子ロボティクス年次大会，東京（2019）．
• Nishikawa, S. M., Khoyratee, F., Kim, S. H., Ikeuchi, Y., Aihara, K., Fujii, T., and Levi, T.: "Biomimetic spike-timing based ionic microstimulation for neuron culture", ICAROB, Beppu, Japan (2019), p.4.
• Baccouche, A., Rondelez, Y., Fujii, T., and Genot, A.: "Seeing the shape of a molecular program", Active Matter Workshop 2019, Tokyo, Japan (2019).
• Lobato-Dauzier, N., Gines, G., Rondelez, Y., Fujii, T., and Genot, A. J.: "MEGABOTS: DNA nano-robots swarms for multiscale dynamic construction", Active Matter Workshop 2019, Tokyo, Japan (2019).
• Hapsianto, B. N., Maekawa, T., Kurita, R., Kim, S. H., and Fujii, T.："Hybridization-free DNA capture beads for cfDNA-capture"，Liquid Biopsy研究会，東京（2019）．
• 土肥浩太郎，木村啓志，南学正臣，藤井輝夫："温度感受性不死化ポドサイトにおける入り組む樹状突起構造の再現"，第3回ポドサイト研究会，東京（2019），p.28．
• Kim, S. H., Yoshida, M., Tago, S., and Fujii, T.: "Efficient pairing of single cells using trap-and-drop microwell array", Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.243-244.
• Okumura, S., Fujii, T., and Genot, A.: "Multi-strands responsive DNA hydrogel beads fabricated with microfluidics", Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.636-637.
• Matsumoto, S., Leclerc, E., Safitri, A. R., Danoy, M., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Recapitulation of rat hepatocellular function forming oxygen gradient in a microfluidic cell culture device”, Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.1573-1574.
• Nishikawa, S. M, Khoyratee, F., Luo, Z., Shiraishi, T., Aihara, K., Ikeuchi, Y., Kim, S. H., Fujii, T., and Levi, T.: "Neuro-hybrid system with spiking neural network and biomimetic ionic micro-stimulation", Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.1688-1689.
• Fukuba, T., Nakasa, A. Tsukada, O., and Fujii, T.: "Application of drug infusion balloons to microfluidic systems for in situ measurement", Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.2281-2282.
• Park, C. J., Kim, S. H., and Fujii, T.: "Electroactive microwell array for separate trapping of single cells and clusters", Proceedings of the 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan (2018), pp.2461-2462.
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Visualization of the difference of rat hepatocellular function under oxygen gradient", Proceedings of the 10th International Symposium on Microchemistry and Microsystems (ISMM 2018), Busan, Korea (2018).
• Okumura, S., Feray, C., Zheng, M., Tanabe, Y., Oba, M., Kusanagi, T., Kobayashi, S., Takada, K., Bennar, S., Yonetuka, H., Wake, T., Genot, A. J., and Fujii, T.: "Logic gated hydrogel”, Proceedings of the 10th International Symposium on Microchemistry and Microsystems (ISMM 2018), Busan, Korea (2018).
• Nishikawa, S. M., Kim, S. H., Ikeuchi, Y., Fujii, T., and Levi, T.: "Biomimetic ionic microstimulation for neuron culture”, Proceedings of the 10th International Symposium on Microchemistry and Microsystems (ISMM 2018), Busan, Korea (2018).
• 奥村周，田邊由佳，大庭ジーナ未来，草彅達也，小林新九郎，髙田和輝，ベナー聖樹，米塚広樹，和氣拓海，A. Genot，藤井輝夫："ストランド応答性DNA ハイドロゲルの開発"，化学とマイクロ・ナノシステム学会第37回研究会（37th CHEMINAS）講演要旨集，つくば（2018），p.98．
• 松本倫実，E. Leclerc，前川敏郎，木下晴之，篠原満利恵，小森喜久夫，酒井康行，藤井輝夫："In vitro における肝機能変化の酸素濃度依存性に関する検証"，化学とマイクロ・ナノシステム学会第37回研究会（37th CHEMINAS）講演要旨集，つくば（2018），p.102．
• 孫明玥，吉富匠，木村啓志，金秀炫，藤井輝夫："3Dプリンタで製作したマイクロ流体デバイスを用いる生体機能チップのモジュール化"，化学とマイクロ・ナノシステム学会第38回研究会（38th CHEMINAS）講演要旨集，札幌（2018），p.79．
• Baccouche, A., Fujii, T., and Genot, A.: "Kinetic study of CRISPR-Cas9 for dynamic DNA nanotechnology", Functional DNA Nanotechnology Workshop, Rome, Italy (2018).
• Lobato-Dauzier, N., Aubert-Kato, N., Vlandas, A., Fujii, T., and Genot, A.: "Shape recognition using chemical networks”, JFR 2018: Journée Francophone de la recherche, Tokyo, Japan (2018).
• Kim, S. H., Yoshida, M. and Fujii, T.: "Label-free selective trapping of single cancer cells using electroactive microwell array", Book of abstracts of AMN / ISMM / APCBM / ANZNMF joint conference, Tasmania, Australia (2017).
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Position-selective cell sampling using localized trypsin streams", Book of abstracts of AMN / ISMM / APCBM / ANZNMF joint conference, Tasmania, Australia (2017).
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Position-selective cell sampling microfluidic system using localized laminar flows", Proceedings of the 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Savannah, USA (2017), pp.1131-1132.
• Kim, S. H., Mitsunaka, T., Fujimoto, Y., Iizuka, K., and Fujii, T.: "Addressable electroactive microwell array capable of deterministic combinatorial trapping of single cells", Proceedings of the 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Savannah, USA (2017), pp.120-121.
• Kim, S. H., Ito, H., Kozuka, M., Takagi, H., Hirai, M., and Fujii, T.: "Highly efficient rare cancer cells isolation and concentration by combining label-free isolation and dielectrophoretic concentration in a microfluidic step-channel", Proceedings of the 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Savannah, USA (2017), pp.197-198.
• Takeuchi, M., Kim, S. H., Nagasaka, K., Yoshida, M., Kawata, Y., Oda, K., and Fujii, T.: "Highly efficient trapping and analysis of rare cells using an electroactive microwell array with barriers", Proceedings of the 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Savannah, USA (2017), pp.880-881.
• 松本倫実，E. Leclerc，前川敏郎，木下晴之，篠原満利恵，小森喜久夫，酒井康行，藤井輝夫："肝細胞培養デバイスにおけるトリプシンを用いた局所的細胞回収方法の検討"，2017年度精密工学会春季大会学術講演会講演論文集，横浜（2017），pp.351-352．
• 伊藤博史，金秀炫，小塚昌弘，髙木英紀，平井光春，藤井輝夫："新規誘電泳動デバイスを組込んだCTC 高純度濃縮システムの開発"，化学とマイクロ・ナノシステム学会第35回研究会（35th CHEMINAS）講演要旨集，東京（2017），p.109．
• 金秀炫，満仲健，藤本義久，飯塚邦彦，藤井輝夫："Addressable Electroactive Microwell Arrayで実現する単一細胞の組み合わせ"，化学とマイクロ・ナノシステム学会第36回研究会（36th CHEMINAS）講演要旨集，群馬（2017），p.22．
• 小森隆幸，金秀炫，宇田徹，藤井輝夫："希少細胞の解析に向けた細胞分離・捕捉デバイス"，化学とマイクロ・ナノシステム学会第36回研究会（36th CHEMINAS）講演要旨集，群馬（2017），p.40．
• Kim, S. H., Mitsunaka, T., Fujimoto, Y., Iizuka, K. and Fujii, T.: "Highly efficient compartmentalization of multiple single cells using addressable electroactive microwell array", 2017 meeting on Single Cell Analyses, Cold Spring Harbor Laboratory, NY, USA (2017), p.24.
• Kaneda,S., Kawada, J., and Fujii, T.: "Immobilization of tumor spheroid on a through-hole membrane to mimic tumor microenvironment", Proceedings of IEEE EMBS Conference on Micro and Nanotechnology in Medicine 2016, Hawaii, USA (2016), P40.
• Ono, T., Fujii, T., Sakai, Y., and Kimura, H.: "Development of organs-on-a-chip with metabolism model", Proceedings of the 27th International Symposium on Micro-NanoMechatronics and Human Science (MHS 2016), Nagoya, Japan (2016).
• Drame-Maigne, A., Amikura, K., Kiga, D., Fujii, T., and Rondelez, Y.: "Artificial networks implementing selection functions for directed evolution", Proceedings of DNA22, Munich, Germany (2016).
• Nishida, S., Matsubara, N., Fukuba, T., Kyo, M., and Fujii, T.: "Underwater atomic force microscope", Proceedings of 24th International Colloquium on Scanning Probe Microscopy (ICSPM 24), Hawaii, USA (2016), S4-60.
• Nishida, S., Matsubara, N., Fukuba, T., Kyo, M., and Fujii, T.: "Underwater atomic force microscope: Instrumentation, operation, and measurement", Proceedings of Techno-Ocean 2016, Kobe, Japan (2016), 4B.3.
• Nishida, S., Matsubara, N., and Fujii, T.: "Underwater atomic force microscope: Development and in situ testing in deep sea", Proceedings of OCEANS 2016 Monterey, Monterey, USA (2016), p. 91.
• Ito, H., Takagi, H., Kozuka, M., Kim, S. H., Hirai, M., and Fujii, T.: "Genetic testing by a novel high-purity concentration system for circulating tumor cells independent of epithelial markers", Proceedings of EUROPEAN SOCIETY FOR MEDICAL ONCOLOGY 2016 Congress, Copenhagen, Denmark (2016), 1160P.
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Creation and visualization of oxygen concentration in a microfluidic hepatocytes culture device”, Proceedings of 8th International Symposium on Microchemistry and Microsystems (ISMM 2016), Hong Kong (2016), 02c1.
• Ogata, K., Kim, S. H., and Fujii, T.: "Electroactive trap-well array coupled with PDMS reaction-well array allows highly efficient single-cell trapping followed by on-chip analysis with a controllable dilution ratio of cell lysates", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.335-336.
• Matsumoto, S., Leclerc, E., Maekawa, T., Kinoshita, H., Shinohara, M., Komori, K., Sakai, Y., and Fujii, T.: "Visualization of oxygen gradient in a PDMS hepatocyte culture device", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.411-412.
• Komeya, M., Kimura, H., Fujii, T., and Ogawa, T.: "A novel microfluidic device for organ culture: in vitro spermatogenesis on chip", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.505-506.
• Shinha, K., Horayama, M., Fujii, T., and Kimura, H.: "Development of a microfluidic probe integrated device toward cell-based assays", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.932-933.
• Hsu, R. C., Kinoshita, H., Asaoka, R., Aihara, M., and Fujii, T.: "Development and demonstration of microfluidic glaucoma drainage device", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.1324-1325.
• Nishida, S., Matsubara, N., Fukuba, T., Kyo, M., and Fujii, T.: "Underwater atomic force microscope for in situ nanoscale imaging in deep sea", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.1398-1399.
• Fukuba, T., Hanatani, K., Okamura, K., and Fujii, T.: "Microfluidic device for in situ quantification of marine microbial ATP with in-line photolysis of caged ATP as internal standard", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.1469-1470.
• Antfolk, M., Kim, S. H., Koizumi, S., Kaneda, S., Fujii, T., and Laurell, T.: "An integrated acousto- and dielectrophoresis device for tumor cell separation, concentration, and single-cell trapping", Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), Dublin, Ireland (2016), pp.1657-1658.
• 金秀炫，小泉沙織，藤井輝夫："マイクロ流体アプローチによる1 細胞アッセイ技術の開発"，細胞アッセイ技術の現状と将来，東京（2016）.
• 西田周平，松原直貴，福場辰洋，許正憲，藤井輝夫："海中原子間力顕微鏡の実海域実証試験"，ブルーアース2016 要旨集，東京（2016），pp.55-56．
• 松本倫実，E. Leclerc，前川敏郎，木下晴之，篠原満利恵，小森喜久夫，酒井康行，藤井輝夫："肝細胞培養マイクロデバイス内における酸素濃度可視化手法の基礎的検証"，2016年度精密工学会春季大会学術講演会講演論文集，千葉（2016），pp.301-302．
• 花谷耕平，福場辰洋，岡村慶，藤井輝夫："Caged ATPを用いた深海微生物ATPセンサの現場校正システム"，2016年度精密工学会春季大会学術講演会講演論文集，千葉（2016），pp.495-496．
• Kim, S. H., and Fujii, T.："Single-cell analysis of rare cancer cells using a microfluidic device"，第75回日本癌学会学術総会，横浜（2016）．
• Kozuka, M., Takagi, H., Ito, H., Kim, S.-H., Hirai, M., and Fujii, T.："Genetic testing by a novel high-purity concentration system for circulating tumor cells independent of epithelial markers"，第75回日本癌学会学術総会，横浜（2016）．
• Ito, H., Kim, S.-H., Kozuka, M., Takagi, H., Hirai, M., and Fujii, T.："Development of a negative selection method-based technology to purify and enrich circulating tumor cells"，第75回日本癌学会学術総会，横浜（2016）．
• Takagi, H., Kozuka, M., Ito, H., Kim, S.-H., Hirai, M., and Fujii, T.："Development of method for high-performance filtering and detecting circulating tumor cells"，第75回日本癌学会学術総会，横浜（2016）．
• 福場辰洋，下島公紀，岡村慶，藤井輝夫："深海pH計測の為の現場校正機能付きpHセンサの開発"，第33回「センサ・マイクロマシンと応用システム」シンポジウム論文集，長崎（2016），25am2-PS-067．
• 西田周平，松原直貴，藤井輝夫："海中原子間力顕微鏡－深海における自己検知型カンチレバーの利用－"，第33回「センサ・マイクロマシンと応用システム」シンポジウム論文集，長崎（2016），24pm2-B-7．
• 松本倫実，E. Leclerc，前川敏郎，木下晴之，篠原満利恵，小森喜久夫，酒井康行，藤井輝夫："肝細胞培養マイクロ流体デバイス内に形成された酸素濃度分布の可視化"，化学とマイクロ・ナノシステム学会第33回研究会（33rd CHEMINAS）講演要旨集，東京（2016），p.35．
• Genot, A., Baccouche, A., Sieskind, R.,Aubert-Kato N., Bredeche, N., Bartolo, J. F, Taly, V., Fujii, T., and Rondelez, Y.："High-throughput mapping of nonlinear biochemical circuits with droplets"，化学とマイクロ・ナノシステム学会第33 回研究会（33rd CHEMINAS）講演要旨集，東京（2016），p.69．
• 松本倫実，E. Leclerc，前川敏郎，木下晴之，篠原満利恵，小森喜久夫，酒井康行，藤井輝夫："ガス透過性を低下させたマイクロ流体デバイス内での肝細胞培養条件の決定"，化学とマイクロ・ナノシステム学会第34回研究会（34th CHEMINAS）講演要旨集，東京（2016）．
• Nishida, S., Matsubara, N., Fujii, T., Fukuba, T., Kyo, M., Okamura, K.,and Shitashima, K.: "Underwater atomic force microscopy for in situ observation of micro- organisms in the deep sea", Proceedings of International Symposium on Underwater Technology 2015 (UT15), Chennai, India (2015), UT15-171.
• Hanatani, K., Fujii, T., and Fukuba, T.: "Development of in-situ microbial ATP analyzer and internal standard calibration method", Proceedings of International Symposium on Under- water Technology 2015 (UT15), Chennai, India (2015), UT15-120.
• Kim, S. H., and Fujii, T.: "Highly efficient trapping and analysis of rare cells using an electroactive double-well array", Proceedings of 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, KOREA (2015), pp.73-75.
• Kim, S. H., Antfok, M., Jonsson, L., Koizumi, S., Kaneda, S., Fujii, T., and Laurell, T.: "Integration of acousto- and dielectrophoresis allows tumor cell separation and enrichment followed by arraying of target cells toward analysis of circulating tumor cells at the single-cell level", Proceedings of 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015) , Gyeongju, KOREA (2015), pp. 346-348.
• Levi, T., Tixier-Mita, A., Ségard, B.-D., Toshiyoshi, H., Fujita, H., and Fujii, T.: "Biomimetic microfluidic neurons for hybrid experiments",Proceedings of 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, KOREA (2015), pp.546-548.
• Nukaga, M., Kim, S. H., Yahata, K., Fujii, T., Kaneko, O., and Kimura, H.: "On-chip deformability measurement of malaria parasite-infected red blood cells by　dielectrophoretic force",Proceedings of 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015) Gyeongju, KOREA (2015), pp.484-486.
• Hibara, A., Miyazaki, K., Fukuba, T., and Fujii, T.: "Phase separation method for aqueous samples containing unknown ratio of organic phases", Proceedings of 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015) Gyeongju, KOREA (2015), pp.1993-1995.
• Kim, S. H. and Fujii, T.: "Highly efficient single cell trapping and analysis of small number of cancer cells with a microwell array utilizing electrostatic forces", Abstract book of 2015 meeting on SINGLE CELL ANALYSES, NY, USA (2015), pp.44.
• Nishida, S., Matsubara, N., Fukuba, T., Kyo, M., and Fujii, T.: "Underwater Atomic Force Microscope - Towards in situ nanoscale measurements in deep sea", Proceedings of OCEANS'15, Maryland, USA (2015), pp.150523-119.
• Gines, G., Zadorin, A., Fujii,T., and Rondelez, Y.: "Microscopic Agents Programmed by DNA Circuits", The 20th International Conference on DNA Computing and Molecular Programming (DNA21), MA, USA (2015).
• 花谷耕平，福場辰洋，藤井輝夫："深海ATP計測に向けたcaged ATPによる現場較正機能の開発"，ブルーアース2015要旨集，東京 (2015)，pp.57-58．
• 松原直貴，西田周平，福場辰洋，木下晴之，許正憲，藤井輝夫："海中AFM用カンチレバーの深海における絶縁性実証実験"，ブルーアース2015要旨集，東京 (2015)，pp.59-60．
• 松原直貴，西田周平，福場辰洋，木下晴之，許正憲，藤井輝夫："深海微小試料の現場観察に向けた海中原子間力顕微鏡の開発（第2報） －パリレンコーティングを施した自己検知型カンチレバーでの微小試料の撮像－"，2015年度精密工学会春季大会学術講演会講演論文集，東京 (2015)，pp.621-622．
• 徐若棋，木下晴之，朝岡亮，藤井輝夫："柔軟シート型緑内障インプラントデバイスの設計と評価"，2015年度精密工学会春季大会学術講演会講演論文集，東京 (2015)，pp.749- 750．
• 榊原隆，木下晴之，大島まり，藤井輝夫："マイクロハイドローリックアクチュエータの自立駆動化"，2015年度精密工学会春季大会学術講演会講演論文集，東京 (2015)，pp.935- 936．
• 金秀炫，藤井輝夫："Electroactive double-Well Arrayを用いた希少細胞の１細胞解析",2015年度精密工学会秋季大会学術講演会講演論文集，宮城 (2015)，pp.783-784．
• 徐若棋，木下晴之，朝岡亮，相原一，藤井輝夫："緑内障インプラントデバイスのためのマイクロバルブの改良"，2015年度精密工学会秋季大会学術講演会講演論文集，宮城 (2015)，pp.819-820．
• 前川敏郎，木下晴之，藤井輝夫："マイクロ流体細胞培養システムを用いた分子濃度の時空間的制御"，化学とマイクロ・ナノシステム学会第32回研究会（32nd CHEMINAS）講演要旨集，福岡 (2015)，pp.33．
• 緒方謙，金秀炫，藤井輝夫："エレクトロアクティブマイクロウェルアレイを用いた高効率１細胞解析"，化学とマイクロ・ナノシステム学会第32回研究会（32nd CHEMINAS）講演要旨集，福岡 (2015)，pp.34．
• 金秀炫，小泉沙織，藤井輝夫："希少細胞の１細胞アッセイのためのダブルウェルアレイの開発"，化学とマイクロ・ナノシステム学会第32回研究会（32nd CHEMINAS）講演要旨集，福岡 (2015)，pp.76．
• 木下晴之，榊原隆，大島まり，藤井輝夫："マイクロハイドロ−リックソフトアクチュエータの基盤技術の構築"，第16回公益社団法人計測自動制御学会システムインテグレーション部門講演会SI2015予稿集，愛知 (2015)，pp.1536-1539．
• 松本倫実，前川敏郎，Eric Leclerc，酒井康行，藤井輝夫："肝細胞培養マイクロデバイスにおける酸素濃度勾配の形成"，第16回公益社団法人計測自動制御学会システムインテグレーション部門講演会SI2015予稿集，愛知 (2015)，pp.0669-0672．
• 額賀正行，矢口友幸，金秀炫，矢幡一英，藤井輝夫，金子修，木村啓志："誘電泳動現象を用いたマラリア感染赤血球の変形能計測デバイスの開発　－赤血球のヤング率の定量化－"，日本機械学会第28回バイオエンジニアリング講演会，東京 (2015)，pp.13．
• 額賀正行，矢口友幸，金秀炫，矢幡一英，藤井輝夫，金子修，木村啓志："誘電泳動現象を用いたマラリア感染赤血球の変形能計測デバイスの開発　－第二報　感染ステージ別の変形能観察－"，東海大学マイクロ・ナノ啓発会第5回学術講演会，神奈川 (2015)，pp.96．
• 金秀炫，小泉沙織，藤井輝夫："マイクロ流体アプローチによる１細胞アッセイ技術の開発"，シンポジウム：細胞アッセイ技術の現状と将来，東京 (2015)，pp.52．
• 額賀正行，矢口友幸，金秀炫，矢幡一英，藤井輝夫，金子修，木村啓志："誘電泳動現象を用いた赤血球の変形能計測デバイス"，シンポジウム：細胞アッセイ技術の現状と将来，東京 (2015)，pp.34．
• 額賀正行，矢口友幸，金秀炫，矢幡一英，藤井輝夫，金子修，木村啓志："誘電泳動現象を活用した赤血球の変形能計測デバイス"，東海大学マイクロ・ナノ啓発会第6回学術講演会，静岡 (2015)，pp.51．
• Levi, T., Ambroise, M., Grassia, F., Saighi, S., Kohno, T., Kinoshita, H., and Fujii, T.: "Biomimetic CPGs for robotic applications", 19th International Sympo- sium on Arti cial Life and Robotics (AROB 2014), Beppu, Japan (2014), pp.355-358.
• Kim, S. H., Kobayashi, M., Kaneda, S., and Fujii, T.: "High-ef ciency rare cell trapping at the single-cell level using electroac- tive microwell array", Proceedings of the 6th International Symposium on Microchemistry and Microsystems (ISMM 2014), Singapore (2014).
• Fujiwara, T., Kinoshita, H., Nishibe, K., Fujii, T., and Ohue, H.: "Development of technique to form a uniform photoresist layer having over 100 micrometers thickness on a substrate", Proceedings of the 6th International Symposium on Microchemistry and Microsystems (ISMM 2014), Singapore (2014).
• Genot, A., Baccouche, A., Sieskind, R., Aubert, N., Bartolo, J. F., Taly, V., Fujii, T., and Rondelez, Y.: "High resolution landscape of a molecular program", the 20th International Conference on DNA Computing and Molecular Programming (DNA20), Kyoto, Japan (2014).
• Kim, S. H., Antfolk, M., Kobayashi, M., Kaneda, S., Laurell, T., and Fujii, T.: "Integration of acoustophoretic cell enrichment and dielectrophoretic single cell trapping for highly ef cient rare-cell analysis", Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), San Antonio, USA (2014), pp.421- 423.
• Ohkubo, T., Kinoshita, H., Maekawa, T., Kimura, H., Kuroda, S., and Fu- jii, T.: "Micro uidic cell culture system for dynamic cell signaling study", Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), San Antonio, USA (2014), pp.536-538.
• Horayama, M., Ohkubo, T., Arai, K., Kabayama, K., Fujii, T., and Kimu- ra, H.: "Pinpoint chemical stimulation control by an integrated microfluidic probe for cell-based assays", Proceedings of the 18th International Con- ference on Miniaturized Systems for Chemistry and Life Sciences (Micro- TAS2014), San Antonio, USA (2014), pp.558-560.
• Kimura, H., Senda, S., Yoshimura, T., Sato, Y., Fujimori, T., and Fujii, T.: "A high-throughput antibody screening platform toward embryology", Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), San Antonio, USA (2014), pp.1482-1484.
• Fukuba, T., Noguchi, T., Okamura, K., Kyo, M., Nishida, S., Miwa, T., and Fujii, T.: "ATP sensing in deep-sea environments using continuous ow microfluidic device", Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), San Antonio, USA (2014), pp.1912-1914.
• Oishi, M., Matsuo, T., Kinoshita, H., Fujii, T., and Oshima, M.: "Simultaneous measurement of 3d interfacial geometry and internal ow structure of micro droplet using digital holographic microscopy", Pro- ceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), San Antonio, USA (2014), pp.2354-2356.
• Horayama, M., Ohkubo, T., Arai, K., Kabayama, K., Fujii, T., and Kimu- ra, H.: "Pinpoint chemical stimulation at a single-cell scale by micro uidic technology", 25th 2014 International Symposium on Micro-NanoMechatronics and Human Science, Nagoya, Japan (2014).Yazaki, R., Shimasaki, S., Tsuchiya, K., Fujii, T., and Kimura, H.: "Evalution of enzyme immobilization methods on microglucose sensors integrated to a micro uidic device", 25th 2014 International Symposium on Micro-NanoMechatronics and Human Science, Nagoya, Japan (2014).
• Levi, T., Ambroise, M., Grassia, F., Saighi, S., Kohno, T., Kinoshita, H., and Fujii, T.: "Biomimetic CPGs for robotic applications", 19th International Sympo- sium on Arti cial Life and Robotics (AROB 2014), Beppu, Japan (2014), pp.355-358.
• 大寺貴裕，木下晴之，榊原隆，大島まり，藤井輝夫："マイクロハイドローリックアクチュエータの開発と実証"，2014年度精密工学会春季大会講演論文集，東京 (2014)，pp.263-264．
• 榊原隆，大寺貴裕，木下晴之，大島まり，藤井輝夫："マイクロハイドローリックアクチュエータの構造解析シミュレーション"，2014年度精密工学会春季大会講演論文集，東京 (2014)，pp.265-266．
• 小林麻里奈，Kim Soo Hyeon，金田祥平，藤井輝夫："単一CTC解析用デバイスの開発"，2014年度精密工学会春季大会講演論文集，東京 (2014)，pp.441-442．
• 大久保智樹，木下晴之，木村啓志，前川敏郎，黒田真也，藤井輝夫："マイクロ流体細胞培養システムにおけるシグナル分子濃度波形の制御"，2014年度精密工学会春季大会講演論文集，東京 (2014)，pp.445-446．
• 洞山正幸，大久保智樹，新井健太，樺山一哉，藤井輝夫，木村啓志："細胞アッセイのためのマイクロ流体プローブ集積型デバイス"，日本機械学会情報・知能・精密部門講演会（IIP2014）講演論文集，東京 (2014)，H-2-4．
• 松尾司，木下晴之，安木政史，大島まり，藤井輝夫："デジタルホログラフィック顕微鏡の開発とその応用"，第2回ホログラフィック・ディスプレイ研究会，千葉 (2014)．
• 榊原隆，木下晴之，大島まり，藤井輝夫："微細流路の複合化による多自由度マイクロハイドローリックアクチュエータの開発"，2014年度精密工学会秋季大会学術講演会講演論文集，鳥取 (2014)，pp.73-74．
• 洞山正幸，大久保智樹，新井健太，樺山一哉，藤井輝夫，木村啓志："マイクロ流体制御による一細胞スケールでの液性刺激"，2014年度精密工学会秋季大会学術講演会講演論文集，鳥取 (2014)，pp.135-136．
• 矢崎亮，嶌崎翔，槌谷和義，藤井輝夫，木村啓志："マイクログルコースセンサにおける酵素固定法の検討"，2014年度精密工学会秋季大会学術講演会講演論文集，鳥取 (2014)，pp.141-142．
• 松原直貴，西田周平，福場辰洋，木下晴之，許正憲，藤井輝夫："深海微小試料の現場観察に向けた海中原子間力顕微鏡の開発"，2014年度精密工学会秋季大会学術講演会講演論文集，鳥取 (2014)，pp.789-790．
• 洞山正幸，大久保智樹，新井健太，樺山一哉，藤井輝夫，木村啓志："一細胞スケールでの液性刺激を実現するマイクロ流体デバイス"，第6回マイクロ・ナノ工学シンポジウム講演論文集，鳥取 (2014)．
• 金秀炫，金田祥平，藤井輝夫："希少細胞解析のためのElectroactive microwell arrayの開発"，化学とマイクロ・ナノシステム研究会第30回研究会（30th CHEMINAS）講演要旨集，札幌 (2014)，p.112．
• Kim, S. H., Fourmy, D., and Fujii, T.: "Measurement of ATP concentration of individual cells with electroactive microwell array", Proceedings of the 7th International Conference on Microtechnologies in Medicine and Biology (MMB2013), Marina del Rey, USA (2013), F2P.22.
• Kawada, J., Kaneda, S., Akutsu, H., and Fujii, T.: "Spatially different initiation of embryoid body", International Society for Stem Cell Research 11th Annual Meeting (ISSCR2013), Boston, USA (2013), F-3168.
• Odera, T., Kinoshita, H., Oshima, M., and Fujii, T.: "Development of a fundamental soft actuator based on microhydraulics", the 7th World Congress on Biomimetics, Arti cial Muscles and Nano-Bio (BAMN2013), Jeju, Korea (2013), pp.107-108.
• Baccouche, A., Fujii, T., and Rondelez, Y.: "New inhibitory architecture for in vitro DNA reaction networks", Pro- ceedings DNA19, Tempe, USA (2013).
• Aubert, N., Fujii, T., Hagiya, M., and Rondelez, Y.: "A computer assisted design tool for dynamic DNA computation sys- tems", Proceedings of DNA19, Tempe, USA (2013).
• Aubert, N., Dinh, Q. H., Hagiya, M., Iba, H., Fujii, T., Bredeche, N., and Rondelez, Y.: "Evolution of cheating DNA-based agents playing the game of rock- paper-scissors", Proceedings of 12th European Conference on Arti cial Life 2013 (ECAL 2013), Taormina, Italy (2013).
• Padirac, A., Baccouche, A., Fujii, T., Estevez-Torres, A., and Rondelez, Y.: "Predator prey molecular landscapes", Proceedings of 12th European Conference on Arti cial Life 2013(ECAL 2013), Taormina, Italy (2013).
• Kobayashi, M., Kim, S. H., Kaneda, S., and Fujii, T.:"Electroactive microwell array towards single circulating tumor cell anal- ysis", Proceedings of the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2013), Freiburg, Germany (2013), pp.377-379.
• Oishi, M., Kinoshita, H., Fujii, T., and Oshima, M.: "Measurement of three dimensional ow structure during microdroplet formation using phase-locked multicolor confocal micro-PIV", Proceedings of the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2013), Freiburg, Germany (2013), pp.904-906.
• Perret, G., Lacornerie, T., Kumemura, M., Lafitte, N., Guillou, H., Jala- bert, L., Lartigau, E., Fujii, T., Cleri, F., Fujita, H., and Collard, D.: "Real-time bio mechanical characterization of DNA damage under therapeutic radiation beams", Proceedings of the 17th International Confer- ence on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2013), Freiburg, Germany (2013), pp.1162-1163.Kim, S. H., Fujii, T., and Fourmy, D.: "Electroactive microwell array for quantitative measurement of intracel- lular ATP at the single-cell level", Proceedings of the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2013), Freiburg, Germany (2013), pp.1335-1337.Kimura, H., Ikeda, T., Sakai, Y. and Fujii, T.: "On-chip absorption and metabolism model for pharmacokinetic stud- ies", Proceedings of the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2013), Freiburg, Germany (2013), pp.1746-1748.
• Kawada, J., Kaneda, S., Kimura, H., Akutsu, H., Sakai, Y., and Fujii, T.: "Spatially heterogeneous differentiation in micro uidic platforms", Cell Symposia – Using Stem Cells to Model and Treat Human Disease, Los Angeles, USA (2013), P2.05.
• 川田治良，金田洋平，阿久津英憲，藤井輝夫："胚様体に対する空間分化誘導制御"，化学とマイクロ・ナノシステム学 会第27回研究会（27th CHEMINAS）講演要旨集，仙台(2013)，p.86．
• 小林麻里奈，Soo Hyeon Kim，金田祥平，藤井輝夫："単一CTC解析に向けた誘電泳動力によるマイクロチャンバへの捕捉に関する研究"，化学とマイクロ・ナノシステム学会第27回研究会（27th CHEMINAS）講演要旨集，仙台 (2013)，p.88．
• 洞山正幸，大久保智樹，藤井輝夫，木村啓志："細胞アッセイのためのマイクロ流体プローブ集積型デバイスの開発"，日本機械学会第5回マイクロ・ナノ工学シンポジウム講演論文集，仙台 (2013)，5PM1-C-3．
• 茂木克雄，杉井康彦，山本貴富喜，藤井輝夫："ソフトリソグラフィを用いた硬質マイクロ流体デバイスの高効率製作手法の開発"，第30回センサ・マイクロマシンと応用システムシンポジウム講演概要集，仙台 (2013)，6PM3-PSS-12．
• 小森靖則，国田勝行，久保田浩行，大久保智樹，木下晴之，木村啓志, 藤井輝夫，黒田真也："マイクロ流体デバイスによる細胞の周波数応答計測の試み",第56回自動制御連合講演会講演論文集，新潟 (2013)，524．
• 大寺貴裕，木下晴之，大島まり，藤井輝夫："マイクロハイドローリクスに基づくソフトアクチュエータの開発"，第14回計測自動制御学会システムインテグレーション部門講演会（SI2013）概要集，神戸 (2013)，pp.1778-1781．
• 大久保智樹，木下晴之，木村啓志，黒田真也，藤井輝夫："シグナル分子濃度を動的に制御するマイクロ流体細胞培養システムの開発"，第14回計測自動制御学会システムインテグレーション部門講演会（SI2013）概要集，神戸 (2013)，pp.1393-1396．
• Kim, S. H., Fourmy, D., and Fujii, T.: "Array of single-cell microreactors (SCMR) allows quantitative analysis of intracellular materials at the single-cell level"，定量生物学の会第六回年会，大阪 (2013)．
• Kimura, H., Ikeda, T., Sakai, Y., and Fujii, T.: "On-chip absorption and metabolism model for pharmacokinetic studies", IEEE EMBS Micro and Nanotechnology in Medicine Conference, Hawai, USA (2012), p.55.
• Padirac, A., Estevez-Torres, A., Fujii, T., and Rondelez, Y.: "Spatially-resolved DNA ecosystem", Proceedings of DNA 18, Aarhus, Denmark (2012).
• Fujii, T., and Rondelez, Y.: "Predator-prey DNA oscillators", Proceedings of DNA 18, Aarhus, Denmark (2012), C3.
• Aubert, N., Rondelez, Y., Fujii, T., and Hagiya, M.: "Enforcing Delays in DNA Computing Systems", Proceedings of DNA 18, Aarhus, Denmark (2012), C15.
• Genot, A, Fujii, T., Rondelez, Y.: "Molecular computations with competitive neural networks that exploit linear and nonlinear kinetics", The Alan Turing Centenary Conference (Turing-100), Manchester,UK (2012), Vol.10, pp.113-117.
• Kawada, J., Kimura, H., Kaneda, S., Akutsu, H., Sakai, Y., Fujii, T.: "Generating articulated embryoid body for spatially controlled differentiation", Proceedings of International Society for Stem Cell Research (ISSCR2012), Yokohama, Japan (2012), T-2270.
• Kaneda, S., Kawada, J., Araki, A., He, X., and Fujii, T.: "Synthetic peptides and polyethylene glycol surfaces for micropatterning of pluripotent stem cells", Proceedings of International Society for Stem Cell Research (ISSCR2012), Yokohama, Japan (2012), T-2264.
• He, X., Kimura, H., Kaneda, S., Kawada, J., Akutsu, H., Sakai, Y., and Fujii, T.: "Patterned neural and cardiac differentiation of one EB of Nanog-iPS using a microfliuidic device", Proceedings of International Society for Stem Cell Research (ISSCR2012), Yokohama, Japan (2012), T-3303.
• Chowdhury, M. M., Fujii, T., and Sakai, Y.: "Importance of size difference between macro- and micro-scale static cultures to enable effect of cell-secreted factors on mouse embryonic stem cell behavior - A mathematical model based study", Proceedings of International Society for Stem Cell Research (ISSCR2012), Yokohama, Japan (2012), T-2245.
• Kobayashi, M., Kaneda, S., Kim, S. H., and Fujii, T.: "An interdigitated microelectrode array for capture and lysing cell as a tool for downstream analysis of acoustofluidic cell separation", 10th Ultrasonic Standing Network Conference (USWNet 2012), Lund, Sweden (2012), pp.90-91.
• Fukuba, T., Kusunoki, T., Maeda, Y., Shitashima, K., Kyo, M., Fujii, T., Noguchi, T., and Sunamura, M.: "In situ chemical sensing for hydrothermal plume mapping and modeling", American Geophysical Union (AGU) Fall Meeting, San Francisco, USA (2012), OS13B-1747.
• Matsuo, T., Kinoshita, H., Fujii, T., and Moto, A.: "Real-time 3D shape measurement of micro droplet using digital holographic microscopy", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.52-54.
• Fukuba, T., Provin, C., Mogi, K., Kinoshita, H., Okamura, K., Kyo, M., and Fujii, T.: "Microfluidic devices for ocean science and expoloration", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.179-181.
• Padirac, A., Estévez-Torres, A., Fujii, T., and Rondelez, Y.: "DNA-based molecular ecosystem on a chip", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.121-123.
• He, X., Kimura, H., Kawada, J., and Fujii, T.: "A high-throughput platform for patterned differentiation of embryoid bodies using air bubbles", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.257-259.
• Kim, S. H., He, X., Kaneda, S., Kawada, J., Fourmy, D., Noji, H., and Fujii, T.: "Quantitative analysis of gene expression level of indivisual iPS cells by using electroactive microwell array", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.581-583.
• Mogi, K., and Fujii, T.: "Evaluation of ethanol toxicity to oil producing algae using a microfluidic device" Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.857-859.
• Kim, S. H., Yoshizawa, S., Takeuchi, S., Fujii, T., and Fourmy, D.: "Cell-free protein synthesis in femtoliter microchambers for arraying ultra-high density protein spots", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.947-949.
• Chowdhury, M. M., Kimura, H., Fujii, T., and Sakai, Y.: "Distinct auto-regulation of embryonic stem cell behavior by cell-secreted soluble factors in a membrane-based two-chambered microbioreactor", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1066-1068.
• Kaneda, S., Araki, A., and Fujii, T.: "An electronic pipette compatible microfluidic chip for continuous processing of size-dependent cell depletion and immunohistochemistry", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1276-1278.
• Desbois, L., Padirac, A., Rondelez, Y., and Fujii, T.: "A microfluidic device for temperature-triggered DNA amplification in agarose microbeads", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1516-1518.
• He, X., Kimura, H., Kaneda, S., Kawada, J., Akutsu, H., Sakai, Y., and Fujii, T.: "Spatially patterned neural and cardiac differentiation of embryoid body (EB) in a microfluidic device", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1585-1587.
• Collard, D., Lacornerie, T., Kumemura, M., Lafitte, N., Guillou, H., Jalabert, L., Lartigau, E., Fujii, T., Cleri, F., and Fujita, H.: "Silicon nano tweezers for real time biomechanical assay on DNA damage by therapeutic radiation beams", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1615-1617.
• Araki, A., Kaneda, S., and Fujii, T.: "A simple method for cell isolation by utilizing both cell size and affinity to surfaces", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1702-1704.
• Ono, K., Kaneda, S., and Fujii, T.: "Single-step capillary e;ectrophoresis for field-amplified sample stacking", Proceedings of MicroTAS 2012 conference, Okinawa, Japan (2012), pp.1948-1950.
• Kimura, H., Ikeda, T., Sakai, Y., and Fujii, T.: "On-chip abKsorption and metabolism model for pharmacokinetic studies", Proceedings of IEEE EMBS Conference on Micro and Nanotechnology in Medicine 2012, Hawaii, USA (2012), p.55.
• Araki, A., Kaneda,S., and Fujii, T.: "A multi-well microfluidic plate for parallelization of cell separation and compartmentalization of separated cells", Proceedings of IEEE EMBS Conference on Micro and Nanotechnology in Medicine 2012, Hawaii, USA (2012), p.140.
• Kaneda,S., Araki, A., and Fujii, T.: "A microfluidic chip for capturing rare cells utilizing both cell size and immunoaffinity", Proceedings of IEEE EMBS Conference on Micro and Nanotechnology in Medicine 2012, Hawaii, USA (2012), p.146.
• 木村啓志，藤井輝夫："マイクロ流体デバイスを応用した微小環境操作"，定量生物学の会第四回年会，名古屋 (2012)，p.111．
• 松尾司，木下晴之，藤井輝夫，本篤志："デジタルホログラフィック顕微鏡による微小液滴形状の時系列三次元計測"，第40回可視化情報シンポジウム，東京 (2012)，可視化情報，Vol.32，Suppl. No.1，pp.135-138．
• 松尾司，木下晴之，安木政史，大石正道，大島まり，藤井輝夫，本篤志："デジタルホログラフィック顕微鏡による時系列マイクロ3D3CPTV"，可視化情報全国講演会（姫路2012），姫路 (2012)，可視化情報，Vol.32，Suppl. No.2，pp.55-56．
• 川田治良，木村啓志，阿久津英憲，酒井康行，藤井輝夫："微小空間における流体操作を応用した多能性幹細胞の時空間分化誘導"，第11回日本再生医療学会総会，横浜（2012），p.178．
• 吉村拓真，佐藤泰史，木村啓志，藤森俊彦，藤井輝夫："胚アッセイに用いる抗体のハイスループット探索デバイス"，第13回計測自動制御学会システムインテグレーション部門講演会（SI2012），福岡 (2012)．
• Plasson, R., Montagne, K., Padirac, A., Fujii, T., and Rondelez, Y.: "A DNA toolbox for engineering in vitro life-like behaviors", European Conference on Artificial Life 2011, Paris, France (2011).
• Padirac, A., Fujii, T., and Rondelez, Y.: "De novo construction of a DNA-based bistable switch", DNA17, Pasadena, USA (2011).
• Montagne, K., Plasson, R., Padirac, A., Fujii, T., and Rondelez, Y.: "A toolbox to build time-responsive in vitro DNA networks", DNA17, Pasadena, USA (2011).
• Oishi, M., Utsubo, K., Kinoshita, H., Fujii, T., and Oshima, M.: "Investigation of flow-induced dynamic motion of red blood cells using target tracking confocal micro-PIV system", Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.553-555.
• Kawada, J., Kimura, H., Kaneda, S., Akutsu, H., Sakai, Y., and Fujii, T.: "Formation of articulated embryoid body (art-EB) for spatially controlled differentiation", Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.846-848.
• Provin, C., Hamon, M., and Fujii, T.: "A simple and inexpensive wet process for the controlled surface wrinkling of PDMS material", .Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.1149-1151.
• Mogi, K., and Fujii, T.: "A microfluidic device for highly efficient processing of yeast culture", Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.1412-1414.
• Matsui, H., Sekijima, M., Fujii, T., Takeuchi, S., and Sakai, Y.: "Polarized hepatocyte culture using 3D patterned collagen gel for analysis of biliary metabolites", Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.1526-1528.
• Provin, C., Fukuba, T., Kinoshita, H., Okamura, K., and Fujii, T.: "Microfluidic device with integrated flow control elements for chemiluminescence-based Mn detection in deep-sea environments", Proceedings of MicroTAS 2011 conference, Seattle, USA (2011), pp.1582-1584.
• He, X., Kawada, J., Kimura, H., Kinoshita, H., and Fujii, T.: "Development of a microfluidic device for 3D patterned differentiation of mosuse iPS cells", International Conference on Biofabrication 2011, Toyama, Japan (2011).
• Ikeda, T., Kawada, J., Kimura, H., Fujii, T.: "On-chip absorption and metabolism model for evaluation of pharmacokinetics", International Conference on Biofabrication 2011, Toyama, Japan (2011), p.80.
• Plasson, R., Montagne, K., Padirac, A., Fujii, T., and Rondelez, Y.: "A DNA toolbox for the design of in vitro complex reaction networks", Systems Chemistry III, Crete, Greece (2011).
• 島田龍平，福場辰洋，木下晴之，藤井輝夫："ディスペンサを用いたマイクロ流路作製と流量制御機構への応用"，第24回化学とマイクロ・ナノシステム研究会(23rd CHEMINAS)講演要旨集，大阪 (2011)，p.41．
• 池田崇，木村啓志，酒井康行，藤井輝夫："薬物動態評価のためのオンチップ吸収代謝モデル"，第12回（社）計測自動制御学会システムインテグレーション部門講演会（SI2011），京都 (2011)，2K2-6.
• Kawada, J., Kimura, H., Akutsu, H., Sakai, Y., and Fujii, T.: "Microfluidic spatial control of stem cell differentiation", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.7-9.
• Kinoshita, H., Atsumi, T., Fukuba, T., and Fujii, T.: "Active micro flow-rate regulation technique based on soft membrane deformation using miniaturized electroosmotic pumps", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.390-392.
• Oishi, M., Kinoshita, H., Fujii, T., and Oshima, M.: "Measurement of three dimensional flow structure of droplet formation mechanism in T-shaped junction using phase-locked confocal micro-PIV", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.569-571.
• Kaneda, S., Minamisawa, T., Shiba, K., and Fujii, T.: "A peptide aptamer-coated surface for selective adhesion of cancer cells in blood cells suspension", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.935-937.
• Ginet, P., Montagne, K., Akiyama, S., Sakai, Y., Fujii, T., Fourmy, D., Voltz, S., and Kim, B.J.: "Heat-shocl protein synthesis in animal cells induced by gold microheaters", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.977-979.
• Kinoshita, H., Aoki, K., Yanagisawa, I., and Fujii, T.: "Miniaturization of integrated microfluidic systems", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.1397-1399.
• Kimura, H., Nakamura, H., Kurakazu, T., Yamamoto, T., Takeuchi, S., Sakai, Y., and Fujii, T.: "An automated embryo culture system using dynamic microarray", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.1544-1546.
• Yamamoto, T., and Fujii, T.: "Nanofluidic single-molecule sorter conceptually proven by sorting of DNA", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.1874-1876.
• Matsui, H., Kimura, H., Osada, T., Sekijima, M., Fujii, T., Takeuchi, S., and Sakai, Y.: "Fine regulation of polarity in a hepatocyte culture utilizing oxygen-permeable membranes and micropatterned collagen gel", Proceedings of MicroTAS 2010 conference, Groningen,The Netherlands (2010), pp.2117-2119.
• Aoki, K., Kinoshita, H., Yanagisawa, I., and Fujii, T.: "Development of integrated multi-pump array for microfluidic applications", Conference Proceedings of International Symposium on Microchemistry and Microsystems (ISMM 2010), Hong Kong (2010), pp.57-58.
• Kaneda, S., Minamisawa, T., Shiba, K., and Fujii, T.: "Adhesion of cancer cells to a peptide aptamer-coated microchannel", Conference Proceedings of International Symposium on Microchemistry and Microsystems (ISMM 2010), Hong Kong (2010), pp.98-99.
• Kimura, H., Takeyama, H., Komori, K., Sakai, Y., and Fujii, T.: "Microfluidic device with integrated electrochemical sensor for cell-based assay in toxicology", Conference Proceedings of International Symposium on Microchemistry and Microsystems (ISMM 2010), Hong Kong (2010), pp.110-111.
• Mogi, K., Paasikallio, T., Pitkanen, J.-P., Penttila, M., and Fujii, T.: "Properties of three thermosetting resins as a microfluidic device", Conference Proceedings of International Symposium on Microchemistry and Microsystems (ISMM 2010), Hong Kong (2010), pp.175-176.
• Park, K.D., Takama, N., Fujii, T., Fujita, H., and Kim, B.J.: "Entropic trapping migration of DNA molecules in silicon-based nanofluidic channels fabricated by shadow evaporation and wet anisotropic etching in KOH solution", Technical Digest of The 13th International Meeting on Chemical Sensors (IMCS-13), Perth, Australia (2010), p.319.
• Kusunoki, T., Fukuba, T., Kyo, M., and Fujii, T.: "Development and evaluation of a pH sensor with microfluidic device, Towards reliable pH measurement in deep-sea environment", Techno-Ocean 2010, Kobe, Japan (2010), 27
• Kim, S. H., Rondelez, Y., Takeuchi, S., Yoshizawa, S., Fourmy, D., and Fujii, T.: "Microchamber array for cell-free protein synthesis from single DNA molecules", The 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA (2010), #545.
• Kawada, J., Kimura, H., Akutsu, H., Sakai, Y., and Fujii, T.: "Spatially controlled differentiation of pluripotent stem cells in microenvironment", The 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA (2010), #108.
• Nojima, T., Yamamoto, T., Kimura, H., and Fujii, T.: "PCR-based biomolecular logic gate", The 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA (2010), #872.
• Kimura, H., Nakamura, H., Akai, T., Yamamoto, T., Hattori, H., Sakai, Y., and Fujii, T.: "Microfluidic device for single embryo coculture with microporous membrane-supported endometrial cells", The 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA (2010), #527.
• Kaneda, S., Minamisawa, T., Shiba, K., and Fujii, T.: "Selective adhesion of target cancer cells from red blood cell suspension using a peptide aptamer-coated microfluidic device", The 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA (2010), #529.
• 福場辰洋，木下晴之，プロヴァン クリストフ，許正憲，藤井輝夫："マイクロ流体デバイスを応用した海洋環境計測", 第21回化学とマイクロ・ナノシステム研究会（21st CHEMINAS）講演要旨集，東京 (2010)，p.53．
• Provin, C., Fukuba, T., Okamura, K., and Fujii, T.: "Integrated in situ analyzer for manganese detection (IISA-Mn)", 第21回化学とマイクロ・ナノシステム研究会（21st CHEMINAS）講演要旨集，東京 (2010)，p.65．
• 楠智行，福場辰洋，許正憲，下島公紀，藤井輝夫："極限環境における高精度pH計測のための現場校正ISFETの開発", 第21回化学とマイクロ・ナノシステム研究会（21st CHEMINAS）講演要旨集，東京 (2010)，p.84．
• 中尾洋祐，川田治良，木村啓志，酒井康行，藤井輝夫："肝細胞培養のための生体内環境を模倣したマイクロ流体デバイス", 第21回化学とマイクロ・ナノシステム研究会（21st CHEMINAS）講演要旨集，東京 (2010)，p.77．
• 木村啓志，中村寛子，倉員智瑛，竹内昌治，酒井康行，藤井輝夫："マイクロ流体デバイスを応用した胚培養自動化システム", 第22回化学とマイクロ・ナノシステム研究会（22nd CHEMINAS）講演要旨集，名古屋 (2010)，p.71．
• 中尾洋佑，川田治良，木村啓志，酒井康行，藤井輝夫："肝細胞索構造を模倣したマイクロ流体デバイス", 第11回（社）計測自動制御学会システムインテグレーション部門講演会（SI2010）概要集，仙台 (2010)，p.315．
• Fukuba, T., Provin, C., Aoki, Y., Okamura, K., Shitashima, K., Yamamoto, T., and Fujii, T.: "Development of integrated in situ analyzers and its application to oceanography", PITTCON2009, Chicago, USA (2009), 2690-9P.
• Fukuba, T., Provin, C., Aoki, Y., Okamura, K., Shitashima, K., Yamamoto, T., and Fujii, T.: "Development of integrated in situ analyzers and its application to oceanography", PITTCON2009, Chicago, USA (2009), 2690-9P.
• Kim, S. H., Yamamoto, T., Fourmy, D., and Fujii, T.: "Trapping escherichia coli cells in electroactive microwell array", Proceedings of the 5th international Conference on Microtechnologies in Medicine and Biology (MMB2009), Quebec, Canada (2009), pp.122-123.
• Park, J. W., Pereira-Rodrigues, N., Ducloux, O., Charlot, B., Fujii, T., and Fujita, H.: "Development of a calcium-ISFET array dedicated to endocrine cells high-throughput analysis", Proceedings of the 5th international Conference on Microtechnologies in Medicine and Biology (MMB2009), Quebec, Canada (2009), pp.136-137.
• Pereira-Rodrigues, N., Ducloux, O., Poleni, P.-E., Fujita, H., and Fujii, T.: "Study of cell activity by modulating oxygen micro-environment in miniaturized cell-based microchips", Proceedings of the 5th international Conference on Microtechnologies in Medicine and Biology (MMB2009), Quebec, Canada (2009), pp.170-171.
• Kimura, H., Nakamura, H., Iwai, K., Yamamoto, T., Takeuchi, S., Sakai, Y., and Fujii, T.: "Study of automated embryo manipulation using dynamic microarray: Trapping, culture and collection", Proceedings of the 5th international Conference on Microtechnologies in Medicine and Biology (MMB2009), Quebec, Canada (2009), pp.210-211.
• Mogi, K. and Fujii, T.: "Individual yeast trapping and aligning by caliper walls in a wide microfluidic channel", Yeast 2009, Manchester, UK (2009), p.230.
• Yamamoto, T. and Fujii, T.: "Electrical single-molecule detection in nanochannel for single-molecular sorter", Proceedings of 9th Nanotechnology Conference: IEEE NANO 2009, Genoa, Italy (2009), pp.1098-1101 (CD-ROM).
• Kimura, H., Nakamura, H., Iwai, K., Yamamoto, T., Takeuchi, S., Sakai, T., and Fujii, T.: "Embryo culture system using dynamic microarray", European Society for Artificial Organs (ESAO2009), Compiegne, France, Journal of Artificial Organs, Vol.32, No.7 (2009), pp.403.
• Chowdhury, M. M., Katsuda, T., Kimura, H., Akutsu, H., Ochiya, T., Fujii, T., and Sakai, Y.: "Embryonic stem cell culture in an in vivo mimicking membrane-based micro-bioreactor", European Society for Artificial Organs (ESAO2009), Compiegne, France, Journal of Artificial Organs, Vol.32, No.7 (2009), pp.403.
• Poleni, P.-E., Ostrovidov, S., Sakai, Y., and Fujii, T.: "Maturation of HEPG2 cells ins closely influenced by the microchannel height", European Society for Artificial Organs (ESAO2009), Compiegne, France, Journal of Artificial Organs, Vol.32, No.7 (2009), pp.397.
• Oishi, M., Kinoshita, H., Fujii, T., and Oshima, M.: "Three-dimensional reconstruction of confocal micro-PIV data with phase adjusting technique using optical proximity sensor", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.1 (2009), pp.749-751.
• Fukuba, T., Hiraga, M., Takamatsu, A., and Fujii, T: "PCR based DNA detection in Deep-sea environment", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1279-1281.
• Kinoshita, H., Sakurada, Y., Yanagisawa, I., Fukuba, T., and Fujii, T: "Development of microfluidic manipulation system based on miniaturized electroosmotic pumps", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1400-1402.
• Kim, S. H., Yamamoto, T., Rondelez, Y., Fourmy, D., and Fujii, T.: "Electro-active microwell array for trapping and lysing single", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1811-1813.
• Kimura, K., Nakamura, H., Iwai, K., Yamamoto, T., Takeuchi, S., Sakai, Y., and Fujii, T.: "On-chip embryo manipulation using dynamic microarray system", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1874-1876.
• Shono, Y., Rodorigues, N. P., Kimura, H., Yamamoto, T., Sakai, Y., and Fujii, T.: "Integration of glucose sensors into a microfluidic device for measurement of cell's activity", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1958-1960.
• Poleni, P.-E., Ducloux, O., Fujita, H., and Fujii, T.: "Pressure driven cell forcusing on a microchip", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.1970-1972.
• Fukuba, T., Aoki, Y., and Fujii, T.: "Microbial activity assay in deep-sea environmnent using a microfluidic device", Proceedings of MicroTAS 2009 conference, Jeju, Korea, Vol.2 (2009), pp.2010-2012.
• Kawada, J., Kimura, H., Yamamoto, T., Akutsu, H., Sakai, Y., and Fujii, T.: "Controlling differentiation of mouse embryonic stem cells by laminar flow in microenvironment", APBioChEC'09, Journal of Bioscience and Bioengineering, Kobe, Japan, Vol.108 (2009), S160.
• Kim, S. H., Yoshizawa, S., Takeuchi, S., Fourmy, D., and Fujii, T.: "Protein synthesis from single DNA molecules trapped in microchambers", Watching Biomolecules in Action (WBMA'09), Osaka, Japan, (2009), pp.108-109.
• Kim, S. H., Yoshizawa, S., Takeuchi, S., Fourmy, D., and Fujii, T.: "Protein synthesis from single DNA molecules trapped in microchambers",　Watching Biomolecules in Action (WBMA'09), Osaka, Japan (2009), pp.108-109.
• 木村啓志，中村寛子，岩井孝介，山本貴富喜，竹内昌治，藤井輝夫，酒井康行："マイクロ流体技術を応用した受精卵操作の自動化の試み"，医薬品探索・開発のための細胞アッセイ技術，東京 (2009)，p.25．
• 藤井輝夫，福場辰洋，下島公紀，許正憲，吉田尊雄，他NT08-11乗船者一同："マイクロ流体デバイスを用いた深海現場複合計測と熱水プールの4次元マッピング"，Blue Earth '09要旨集，東京 (2009)，pp.70-71．
• 渥美智裕，福場辰洋，木下晴之，藤井輝夫："化学・生化学分析装置の海洋現場応用に向けた超小型化送液ユニットの構築"，第18回化学とマイクロ・ナノシステム研究会（18th CHEMINAS）講演要旨集，広島 (2009)，p.52．
• 朴柾昱，N. Pereira-Rodrigues，O. Ducloux，B. Charlot，藤井輝夫，藤田博之： "細胞の活動計測を目指すカルシウムイオン選択性トランジスタアレイ"，第18回化学とマイクロ・ナノシステム研究会（18th CHEMINAS）講演要旨集，広島 (2009)，p.75．
• Kim, S. H., Yamamoto, T., Fourmy, T., and Fujii, T.："Confining Yeast cell into arrayed microchamber using dielectrophoresis", 第18回化学とマイクロ・ナノシステム研究会（18th CHEMINAS）講演要旨集，広島 (2009)，p.78．
• 青木健吾，木下晴之，柳澤一郎，藤井輝夫："埋め込み型電気浸透流ポンプを搭載したマイクロ流体デバイスの開発"，第10回（社）計測自動制御学会システムインテグレーション部門講演会（SI2009）概要集，東京 (2009)，p.291．
• 渥美智裕，福場辰洋，木下 晴之，藤井輝夫："化学・生化学分析装置の海洋現場応用に向けた超小型送液ユニットの構築"，第10回（社）計測自動制御学会システムインテグレーション部門講演会（SI2009）概要集，東京 (2009)，p.291．
• 川田治良，木村啓志，阿久津英憲，酒井康行，藤井輝夫："マイクロ流体環境を利用した細胞分化制御デバイス"，第10回（社）計測自動制御学会システムインテグレーション部門講演会（SI2009）概要集，東京 (2009)，p.292．
• 木村良範，金田祥平，藤井輝夫，村田智："DNAを用いたフォトニック結晶の階層的結晶成長制御"，第10回（社）計測自動制御学会システムインテグレーション部門講演会（SI2009）概要集，東京 (2009)，p.578．
• Kimura, H., Yamamoto, T., Sakai, Y., and Fujii, T.: "A chip-based in vitro model for cytotoxicity test using Caco-2 and Hep G2", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.1 (2008) pp.21-23.
• Kaneda, S., Nojima, T., Yamamoto, T., and Fujii, T.: "A droplet on demand microfluidic device for detecting DNA single base substitution using PNA probe", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.1 (2008) pp.176-178.
• Kinoshita, H., Li, F.-C., Oshima, N., Oshima, M., and Fujii, T.: "Three-dimensional visualization of microscopic fluidic structures formed in viscoelastic fluid flow", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.1 (2008) pp.706-708.
• Mogi, K., Yamamoto, T., Kinoshita, H., and Fujii, T.: "Size-based particle sorting by caliper walls in a wide microfluidic channel", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.1 (2008) pp.820-822.
• Fukuba, T., Hiraga, M., Takamatsu, A., Provin, C., Yamamoto, T., and Fujii, T.: "Simple method for quantitative PCR using flow-through PCR device", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.2 (2008) pp.1743-1745.
• Fukuba, T., Tamai, Y., Kyo, M., Shitashima, K., Koike, Y., and Fujii, T.: "Development and field evaluation of ISFET pH sensor integrated with self-calibration device for deepsea oceanography applications", Proceedings of MicroTAS 2008 conference, San Diego, USA, Vol.2 (2008) pp.1983-1985.
• Lee, S. W., Kinoshita, H., Yamamoto, T., and Fujii, T: "Motor protein as a nano probe to estimate fluid flow in close proximity of surface", Proceed of 19th International Symposium on Pharmaceutical & Biomedical Analysis (PBA 2008), Gdansk, Poland (2008), p.290.
• Kaneda, S., Nojima, T., Yamamoto, T., Fujii, T.: "Development of a droplet-handling microfluidic device for detecting DNA single-base substitution using peptide nucleic acid probes", Proceed of the IEEJ 25th Sensor Symposium on Sensors, Micromachines and Applied Systems, Okinawa, Japan (2008), pp.629-632.
• Nojima, T., Yamamoto, T., Kimura, H., and Fujii, T.: "PCR-based logic gate system", Taiwan-Japan Bilateral Symposium on Research and Education of Nanotechnology 2008, Tokyo, Japan (2008).
• Provin, C., Fukuba, T., and Fujii, T.: "Integrated in situ analyzer for manganese (IISA-Mn) for deep sea environment", Oceans '08, Kobe, Japan (2008).
• 野島高彦，木村啓志，藤井輝夫："繰り返し配列を持つDNAを鋳型とする無細胞蛋白質合成"，第10回生命化学研究会シンポジウム，熊本 (2008)，p.16．
• 野島高彦，木村啓志，藤井輝夫："繰り返し構造を持つ鋳型DNAからの生体外遺伝子発現"，日本化学会第88春季年会，東京 (2008)，No.4A4-33．
• 金田祥平，野島高彦，山本貴富喜，藤井輝夫："オンデマンド型液滴ハンドリングデバイスを用いたPNAプローブ法によるDNAの－塩基置換検出"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.54．
• 木村啓志，山本貴富喜，酒井康行，藤井輝夫："体内毒性試験のためのオンチップin vitroモデルの構築"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.55．
• 平賀雅隆，福場辰洋，山本貴富喜，高松敦子，藤井輝夫："Flow-Through PCR装置によるDNAの定量"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.57．
• 櫻田祐貴，木下晴之，柳澤一郎，藤井輝夫："小型電気浸透流ポンプを用いたマイクロ流体制御システムの構築と評価"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.78．
• 茂木克雄，山本貴富喜，藤井輝夫："連続的凹凸形状を利用したマイクロ流体デバイスによる粒子のサイズソーティング"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.83．
• 庄野裕基，ナザレ ペレイラ ロドリゲス，木村啓志，山本貴富喜，藤井輝夫："細胞活性計測のためのマイクログルコースセンサデバイス"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.93．
• 野島高彦，山本貴富喜，木村啓志，藤井輝夫："DNA増幅と遺伝子発現にもとづくロジックゲート構築のこころみ"，第17回化学とマイクロ・ナノシステム研究会（17th CHEMINAS）講演要旨集，福岡 (2008)，p.98．
• 庄野裕基："マイクロ流体デバイスへの細胞活性計測用グルコースセンサの集積化"，東京大学生命科学ネットワークシンポジウム2008抄録集，東京 (2008)，p.61．
• 金田祥平，野島高彦，山本貴富喜，藤井輝夫："微量液滴ハンドリングデバイスによるPNAプローブ法とRFLP法を用いたDNA-塩基置換検出"，東京大学生命科学ネットワークシンポジウム2008抄録集，東京 (2008)，p.86．
• 木村啓志，山本貴富喜，酒井康行，藤井輝夫："体内毒性試験のためのオンチップin vitroモデルの構築"，東京大学生命科学ネットワークシンポジウム2008，東京 (2008)，p.56．
• 野島高彦，木村啓志，藤井輝夫："同一遺伝子を繰り返しコードした鋳型DNAからの無細胞蛋白質合成"，第57回高分子討論会予稿集，大阪 (2008)，Vol.57，No.2，p.4843．
• 野島高彦，山本貴富喜，木村啓志，藤井輝夫："PCRに基づく生化学ロジックゲート"，第3回バイオ関連化学合同シンポジウム講演要旨集，神奈川 (2008)，p.290．
• 野島高彦，山本貴富喜，木村啓志，藤井輝夫："Fluorescent green logic"，第11回生命化学研究会抄録集，群馬 (2008)，p.9．
• Provin, C., Fukuba, T., and Fujii, T.: " Development of Integrated In Situ Analyzer for Manganese (IISA-Mn) in Deep Sea Environment", Proceedings of Symposium on Underwater Technology 2007 and Workshop on Scientific Use of Submarine Cables and Related Technologies 2007, Tokyo, Japan (2007), pp.658-662.
• Fukuba, T., Fukuzawa, N., Glutz, L.S., Miyaji, A., and Fujii, T.: "Development of an Integrated In Situ Analyzer for Quantitative Analysis of Microbial ATP in Aquatic Environments", Proceedings of Symposium on Underwater Technology 2007 and Workshop on Scientific Use of Submarine Cables and Related Technologies 2007, Tokyo, Japan (2007), pp.240-244.
• Pereira-Rodrigues, N., Kimura, H., Sakai, Y., and Fujii, T.: "Cell-based microfluidic biochip for electrochemical real-time monitoring of glucose and oxygen", Proceeding of Transducers2007, Vol.1, Lyon, France (2007), 843-846.
• Cho, Y.H., Lee, S.W., LePioufle, B., Takama, N., Takeuchi, S., Fujii, T., and Kim, B. J.: "High-throughput Single-cel Electroporation Microchip with Three Dimensional Si Microelectrodes for Gene Transfection", Proceedings of Transducers 2007, Lyon, France (2007), pp.939-942.
• Somei, K., Kaneda, S., Fujii, T., and Murata, S.: "Stepwise Assembly of DNA Tile on Surfaces", Proceedings of the 13th International Meeting on DNA Computing (DNA13), Memphis, USA (2007).
• Lennon, E., Yamamoto, T., Lee, S. W., and Fujii, T.: "Evaporative pumping of liquid in nanochannel for electrical measurement of a single biomolecule in microfluidic format", IEEE-Nano 2007 Proceedings, Hong Kong (2007), pp.562-565.
• Fukuba, T., Miyaji, A., Fukuzawa, N., Provin, C., Yamamoto, T., Glutz, L., Okamoto, T., and Fujii, T.: "Development of Integrated in situ Analyzers (IISA) for Oceanography Applications", Proceedings of MicroTAS 2007 conference, Paris, France (2007), pp.844-846.
• Pereira-Rodrigue, N., Kimura, H., Sakai, Y., and Fujii, T.: "Microfluidic Biochip for the electrochemical cell activity analysis", Proceedings of MicroTAS 2007 conference, Paris, France, Vol. 1 (2007), pp.152-154.
• Kimura, H., Yamamoto, T., Sakai, Y., and Fujii, T.: "An Integrated Microfluidic System for Long-term Culture and Continuous Monitoring of Intestinal Cells", Proceedings of MicroTAS 2007 conference, Paris, France, Vol. 1 (2007), pp.182-184.
• Mizuno, J., Ostrovidov, S., Nakamura, H., Akaishi, K., Inui, H., Sakai, Y., Fujii, T., Anzai, K., and Watanabe, A.: "Human ART on chip: Development of microfluidic device for IVF & IVC", 23rd Annual Meeting of the European Society of Human Reproduction and Embryology, Lyon, France (2007), P432.
• Kimura, H., Shono, Y., Yamamoto, T., Sakai, Y., and Fujii, T.: "A Microdevice for Human Cell Culture and Assay", 6th World Congress on Alternativies & Animal Use in the Life Sciences Abstracts, Tokyo (2007), p.200.
• Mizuno, J., Ostrovidov, S., Nakamura, H., Akaishi, K., Inui, H., Sakai, Y., Fujii, T., Anzai, K., Watanabe, A., and Yoshida, R.: " IVF Chip for Human ART", 14th World Congress on IVF and the 3rd World Congress on IVM, Montreal, Canada (2007) O-1201.
• Mizuno, J., Ostrovidov, S., Sakai, Y., Fujii, T., Nakamura, H., and Inui, H.: " Human ART on chip: Improved human blastosyst development and quality with IVF-Chip", 63rd Annual Meeting AMERICAN SOCIETY FOR REPRODUCTIVE MEDICINE, Washington DC, USA (2007), O-268.
• Nojima, T., Kaneda, S., and Fujii, T.: "Application of on-chip capillary electrophoresis to cell-free preparation of recombinant DNA", Nucleic Acids Chemistry Symposium Series, No.51, Tokyo (2007), pp.87–88.
• 藤井輝夫，竹村明洋，他NT06-14乗船者一同："現場計測技術開発と海洋動物研究を目的とした鳩間海丘調査（NT06-14航海報告）"，第23回しんかいシンポジウム予稿集，横浜 (2007)，p.64.
• 藤井輝夫："海洋における現場計測分析技術の新展開"，2007年度日本海洋学会春季大会シンポジウムＤ，東京 (2007)．
• 福場辰洋，福沢範行，C.Provin，藤井輝夫："マイクロ流体デバイスを用いた現場計測システム開発の展開"，2007年度日本海洋学会春季大会シンポジウムＤ，東京 (2007)．
• 水野仁二，中村寛子，S. Ostrovidov，酒井康行，藤井輝夫，赤石一幸，渡辺奈津美，栗城瑛子，中野真，安齋憲，渡辺明彦，乾裕昭："ヒトARTのためのmicrofluidic受精･共培養システムの開発"，第48回日本哺乳動物卵子学会，甲府 (2007)，#54．
• 野島高彦，金田祥平，藤井輝夫："DNA分離マイクロ流体デバイスを用いて達成する無細胞遺伝子操作"，第15回化学とマイクロ・ナノシステム研究会(15th CHEMINAS)講演要旨集，仙台 (2007)，p.70.
• 白樫了，高野清，C. Provin，酒井康行，藤井輝夫："高密度培養バイオリアクターの物質代謝解析に関する研究"，第44回日本伝熱シンポジウム論文集，長崎 (2007)，C114．
• 大石正道，大島まり，木下晴之，藤井輝夫，小林敏雄："多波長共焦点マイクロPIVによるマイクロ液滴生成機構の定量的計測"，第35回可視化情報シンポジウム予稿集，東京 (2007)，P05-008．
• 水野仁二，S. Ostrovidov，中村寛子，酒井康行，藤井輝夫，赤石一幸，渡辺奈津美，栗城瑛子，吉田涼，野口香里，中野真，渡辺明彦，安齋憲，乾裕昭："ヒトARTのためのIVF Chip（Micro device）臨床応用試験"，第25回日本受精着床学会，仙台 (2007)，#78．
• 野島高彦，金田祥平，藤井輝夫："DNA分離回収用オンチップ・キャピラリー電気泳動を用いる無細胞遺伝子工学実験"，日本分析化学会第56年会講演要旨集，徳島 (2007)，p.256．
• 吉田知水，白樫了，高野清，C. Provin，酒井康行，藤井輝夫："HepG2細胞のエネルギー代謝率の定常測定"，日本機械学会熱工学コンファレンス2007講演論文集，京都 (2007)，pp.391-392．
• 山本貴富喜，金田祥平，木村啓志，藤井輝夫："シリコーン製マイクロ・ナノ流体デバイスの医療・ライフサイエンス応用　(Silicone Micro / Nano Fluidic Device for Medical and Life Science　Applications)"，プラスチック成形加工学会(成形加工シンポジア’07)，山口 (2007)，pp.153-154．
• Kinoshita, H., Oshima, M., Kaneda, S., and Fujii, T.: "Validation of Confocal Micro-PIV Technique by Poiseuille Flow Measurement", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.78-80.
• Fukuba,T., and Fujii, T.: "Development and Evaluation of the Integrated In Situ Analyzer for Gene 'IISA-Gene' for Microbiology in Extreme Environments", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.184-187.
• Fukuzawa, N., Fukuba, T. , and Fujii, T.: "Development of In Situ ATP Quantitative Analysis System 'IISA-ATP'", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.260-263.
• Kimura, H., Sakai,H., Ostrovidov,S., Yamamoto, T., Sakai, Y., and Fujii, T.: "Two-compartments Microbioreactor with Integrated Magnetic Stirrer Pump for Measuremnt of Transmembrane Transport of Caco-2 Cells", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.112-115.
• Pereira-Rodrigues, N., Kimura, H., Sakai, Y., and Fujii, T.: "Development of an Integrated Microfluidic Device for Sensing Dynamic Response of Cells and Tissues", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.70-73.
• Okamoto, T., Yamamoto, T., Takamatsu, A., Kaneko, N., and Fujii, T.: "Relationship between Hydrophobic Beads Attachment and Fluid Flow in PDMS Microchannel", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.119-122.
• Provin, C., Takano, K., Shirakashi, R., Sakai, Y., and Fujii, T.: "Fabrication of Microbioreactors with an Optimized Structure Designed for High Density Culture of Hepatocyte", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.267-270.
• Lennon, E., Ostrovidov, S., Fujii, T., and Senez, V.: "Dielectrophoresis, cell culture, and Electrical Impedance Spectroscopy Applied to Adherent Cells in a Single Biochip", Proceedings of 2006 International Conference on Microtechnologies in Medicine and Biology (2006), pp.165-168.
• Lee, S.W., Yamamoto, T., Segawa, S., Kimura, H., Noji, H., and Fujii, T.: "Development and Analysis of Multi-Laminar Chemical Delivery Platform toward Single Molecular Application", Proceedings of the Fourth International Conference on Nanochannels, Microchannels and Minichannels (2006), ICNMM2006-96164.
• Kaneda, S., Somei, K., Ono, K., Yamamoto, T., and Fujii, T.: "A Microfluidic Device for Droplet-based DNA-PNA Hybridization and Separation", Proceedings of MicroTAS 2006 Conference, Vol. 2 (2006), pp.1151-1153.
• Kinoshita, H., Oshima, M., Kaneda, S., and Fujii, T.: "Thee-dimensional Measurement of Circulation Flow in a Droplet Moving in a Micochannel", Proceedings of MicroTAS 2006 Conference, Vol. 1 (2006), pp.65-67.
• Senez, V., Treizebre, A., Lennon, E., Ghandour, H., Mille, V., Heim, T., Akalin, T., Yamamoto, T., Bourzgui, N., Legrand, D., Sakai, Y., Supiot, P., Mazurier, J., Fujii, T., and Bocquet, B.: "Ultra Wide Band Dielectric Spectroscopy of Single Cell in Microfluidic Devices", Proceedings of MicroTAS 2006 Conference, Vol. 1 (2006), pp.738-740.
• Shirakashi, R., Yoshida, T., Provin, C., Takano, K., Sakai, Y., and Fujii, T.: "Measurement of the Energy Metabolism of HepG2 Cells for Designing Engineering Tissues Allowing High Density Cultivation", Journal of Biomechanics Abstract of the 5th World Congress of Boimechanics, Vol.39, Supplyment 1 (2006), p.633.
• Oishi, M., Kinoshita, H., Oshima, M., Fujii, T., and Kobayashi, T.: "Multicolor Confocal Micro PIV Measurement of Solid-fluid Interaction in Microflow", Proceedings of 4th Japan-Korea Joint Seminar on Particle Image Velocimetry (2006), CD-ROM.
• Sakai, Y., and Fujii, T.: "New Cytotoxicity Tests Using Multi-Compartmental Cell Culture and Miniaturization Technologies", 19th Annual and International Meeting of the Japanese Association for Animal Cell Culture (2006).
• Kimura, H., Yamamoto, T., Sakai, Y., and Fujii, T.: "Development of Micro Perfusion Cell Culture Device to Create In Vivo-Like Environments for Long-Period and Real-Time Monitoring of Cells Activities", Proceedings of 2006 International Symposium on Micro-NanoMechatronics and Human Science (2006), p.25.
• Miura, K., Kojima, N., Tan, W. H., Suzuki, H., Kimura, H., Fujii, T., Takeuchi, S., and Sakai, Y.: "Combination of an Avidin-biotin Cell-to-cell Binding System and Single cell Manipulation with Optical Tweezers toward Bottom-up Tissue Engineering", Proceedings of the 3rd International Symposium on Bioprinting and Biofabrication (2006).
• Pereira Rodrigues, N., Collard, D., Fujii, T., Fujita, H., and LePioufle, B.: "From the Biomolecule Manipulation to the Cell Culture Monitoring, Biochip Research at LIMMS, an International Japanese-French Laboratory", Proceeding of UT Symposium on NanoBio Integration (2006), pp.111-112.
• Nojima, T., Lin, A. C., Yamamoto, T., Endo, I., and Fujii, T.: "Controlling the Expression Ratio of Two Proteins by Inserting a Terminatorbetween the Two Genes", Nucleic Acids Chemistry Symposium Series, No. 50 (2006), pp.329-330.
• 藤井輝夫，福場辰洋，岡本拓士，長沼毅，金子亮，林徹，吉田尊雄，許 正憲，岡村 慶，下島公紀，前田義明，小池祐一："深海熱水地帯における現場複合計測技術の開発．熱水プルームマッピングと現場遺伝子解析の試み．"，第22回しんかいシンポジウム予稿集，横浜 (2006)．
• 高野清，C. Provin，酒井康行，藤井輝夫，白樫了："人工臓器への応用を目的とした種々の足場構造の物質輸送に関する基礎的研究"，第43回日本伝熱シンポジウム講演論文集，Vol.3 (2006)，pp.517-518．
• 木村啓志，山本貴富喜，酒井康行，藤井輝夫："2-コンパートメントを有する灌流系細胞培養アッセイ用マイクロデバイスの開発"，第7回（社）計測自動制御学会システムインテグレーション部門講演会論文集 (2006)，CD-ROM．
• 木下晴之，大島まり，金田祥平，藤井輝夫："高速３次元共焦点イメージングを用いた３次元マイクロPIV"，可視化情報，Vol.26，Suppl.No.2 (2006)，pp.233-236．
• 白樫了，吉田知水，高野清，C. Provin，酒井康行，藤井輝夫："少数細胞のエネルギー代謝率測定"，熱工学コンファレンス2006講演論文集， No.06-2 (2006)，pp.365-366．
• 福場辰洋，宮地輝光，C. Provin，福沢範行，藤井輝夫："マイクロ流体デバイスを用いた集積化現場計測システム「IISA」開発"，日本船舶海洋工学会講演会論文集，第３号 (2006)，pp.31-34．
• Mizuno, J., Nakamura, H., Maebayashi, T., Ostrovidov, S., Sakai, Y., Fujii, T., Higuchi, T., Akaishi, K., Watanabe, N., Hirayama, K., Kuriki, E., and Inui, H.: "PC Controlled Micromanipulation System and Microfluidic Embryo Co-culture System for Human ART", Proceedings of the 12th International Academy of Human Reproduction, Venice,Italy (2005), Nr.65.
• Fukuba,T., Imhof, A., Matsunaga, M., Takagi, N., Yamamoto, T., Okamura, K., Naganuma, T., and Fujii, T.: "Development of Miniaturized In Situ Analysis Devices for Biological and Chemical Oceanography", Proceedings of the 3rd Annual International IEEE EMBS Special Topic Conference on Microtechnologies in Medicine and Biology,Hawaii, USA (2005), pp.56-59.
• Cho, Y. H., Takama, N., Yamamoto, T., Fujii, T., and Kim, B.J.: "MEMS-based Bio-chip for the Characterization of Single Red Blood Cell", Proceedings of the 3rd Annual International IEEE EMBS Special Topic Conference on Microtechnologies in Medicine and Biology, Hawaii, USA (2005), pp.38-41.
• Rissanen, A.K., Ostrovidov, S., Lennon, E., Senez, V.,Kim,B.J., Sakai-Furukawa, K., Ushida, T., Sakai, Y., and Fujii, T.: "Monitoring Capillary Endothelial Cell Culture and Capillary Formation in a Microdevice by Impedance Spectroscopy Measurements", Proceedings of the 3rd Annual International IEEE EMBS Special Topic Conference on Microtechnologies in Medicine and Biology, Hawaii, USA (2005), pp.64-67.
• Okamoto, T., Kaneko, N., Takamatsu, A., and Fujii, T.: "Pattern Formation of Adhesive Beads to Channels in Microfluidic Devices for Cell Culture", Proceedings of the 3rd Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology, Hawaii, USA (2005), pp.176-179.
• Ostrovidov, S., Jiang, J., Sakai,Y., and Fujii, T.: "PDMS Microbioreactors For Primary Rat Adult Hepatocyte Cultures on Porous Membranes", Proceedings of Asia-Pacific Biochemical Engineering Conference 2005, Korea (2005), TIS-05.
• Cho, Y. H., Takama, N., Yamamoto, T., Fujii, T., and Kim, B.J.: "Characterization of Single Red Blood Cell using Twin Microcantilever Type Sencer Array", Technical Digest of the 13th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers '05), Seoul, Korea (2005), pp.1692-1695.
• Lee, S.W., Yamamoto, T., and Fujii, T.: "Highly Selective and Sensitive DNA Measurement by Micro Electrical Impedance Spectroscopy", Technical Digest of the 13th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers '05), Seoul, Korea (2005), pp.1314-1317.
• Lennon, E., Senez, V., Yamamoto, T., Fujita, H., and Fujii, T.: "Integration of Three-Dimensional Microelectrodes in Microfluidic Biochip for Electric Field Based Processing of Biological Species: Application to Electrical Impedance Spectroscopy", Technical Digest of the 13th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers '05), Seoul, Korea (2005), pp.1724-1727.
• Somei, K., Kaneda, S., Fujii, T., and Murata, S.: "A Microfluidic Device for DNA Tile Self-Assembly", Proceedings of the 11th International Meeting on DNA Computing, London, Canada (2005), pp.136-146.
• Jeong, O. C., Yamamoto, T., Lee, S. W., Fujii, T., and Konishi, S.: "Surface Modification, Mechanical Property, and Multi-Layer Bonding of PDMS and Its Application", Proceedings of the 9th International Conference on Miniaturized Chemical and Biochemical Analysis Systems (MicroTAS 2005), Vol.1, Boston, USA (2005), pp.202-204.
• Kinoshita, H., Oshima, M., Kaneda, S., and Fujii, T.: "Confocal Micro-PIV Measurement of Internal Flow in a Moving Droplet", Proceedings of the 9th International Conference on Miniaturized Chemical and Biochemical Analysis Systems (MicroTAS 2005), Vol.1, Boston, USA (2005), pp.629-631.
• Ono, K., and Fujii, T.: "A Plug-and-Play Single-step Capillary Electrophoresis System", Proceedings of the 9th International Conference on Miniaturized Chemical and Biochemical Analysis Systems (MicroTAS 2005), Vol.1, Boston, USA (2005), pp.271-273.
• Lee, S. W. Yamamoto, T., Noji, N., and Fujii, T.: "High-speed Switcing of Chemical Stimulation for Single Molecular Analysis in Continuous-flow Format", Proceedings of the 9th International Conference on Miniaturized Chemical and Biochemical Analysis Systems (MicroTAS 2005), Vol.2, Boston, USA (2005), pp.1240-1242.
• Ostrovidov, S., Mizuno, J., Nakamura, H., Inui, H., Sakai, Y., and Fujii, T.: "Culturing Embryos on Endometrium Tissue Preformed in a Microfluidic Device: a New Tool for ART (Assisted Reproductive Technology)", Proceedings of the 9th International Conference on Miniaturized Chemical and Biochemical Analysis Systems (MicroTAS 2005), Vol.1, Boston, USA (2005), pp.361 - 363.
• Kinoshita, H., Oshima, M., Kaneda, S., and Fujii, T.: "3-D Confocal Micro-PIV Measurement of Microchannel Flow Using High-Speed Confocal Scanning Microscopy", Bulletin of the American Physical Society, Vol.50, No.9 (2005), p.60.
• Yamamoto, T., Rissanen, A., Ostrovidov, S., Yasuyuki, S., and Fujii, T.: "Monitoring Capillary Endothelial Cell Growth and Capillary Formation in a Microfluidic Device by Electrical Impedance Spectroscopy", Stem Cell Research, Tissue Models for Therapeutics, Boston, USA (2005).
• Kimura, H., Ostrovidov, S., Yamamoto, T., Sakai, Y., and Fujii, T.: "High-Performance Micro Cell Culture System Using a Gas Permeable Material of PDMS", Stem Cell Research, Tissue Models for Therapeutics, Boston, USA (2005).
• Sakai, H., Kimura, H., Ostrovidov, S., Nishikawa, M., Kojima, N., Yamamoto, T., Fujii, T., and Sakai, Y.: "Development of On-Chip Microbioreactors as a Novel in vitro Organ Model", Proceedings of the 22nd SENSOR SYMPOSIUM, Tokyo (2005), pp.107-111.
• Mizuno, J., Nakamura, H., Ostrovidov, S., Sakai, Y., Fujii, T., Akaishi, K., Watanabe, N., Hirayama, K., Kuriki, E., and Inui, H.: "Development of Microfluidic Embryo Co-culture System for Human ART", The 61th American Society for Reproductive Medicine, Montreal, Canada (2005), p.688.
• 岡本拓士，金子直嗣，高松敦子，山本貴富喜，藤井輝夫："マイクロ流路内における疎水性粒子の付着パターン解析"，可視化情報， Vol.25, suppl. No.1 (2005)，pp.293-294．
• 木下晴之，大島まり，金田祥平，藤井輝夫："高速共焦点スキャナを用いたマイクロPIV システムの開発とその応用"，可視化情報，Vol.25，suppl. No.2 (2005)，pp.313-316．
• 乾裕昭，水野仁二，中村寛子，赤石一幸，Serge Ostrovidov，酒井康行，藤井輝夫，渡辺奈津美，平山和宏，栗城瑛子："ヒトARTのためのMicrofluidic Embryo Co-cultureシステムの開発"，第23回日本受精着床学会，大阪 (2004)，基3．
• 水野仁二，中村寛子，乾裕昭，Serge Ostrovidov，酒井康行，藤井輝夫："Development of Microfluidic Embryo Co-culture System for Human Assisted Reproductive Technology (ART)"，第23回日本ヒト細胞学会，つくば (2005)，13．
• 福場辰洋，岡本拓士，長沼毅，金子亮，林徹，許正憲，吉田尊雄，岡村慶，下島公紀，前田義明，小池祐一，藤井輝夫："深海熱水地帯における化学及び生物活動に関する現場複合計測の試み"，2005年度日本地球化学会第５２回年会 (2005)．
• 前田義明，古島靖夫，小池祐一，唐沢邦彦，許正憲，山本啓之，藤井輝夫，下島公紀："熱水プルームの挙動を支配する海水流動の観測"，2005年度日本地球化学会第52回年会 (2005)．
• 許正憲，前田義明，山本啓之，藤井輝夫，下島公紀："ROVを用いた深海熱水プルームの空間マッピング観測"，2005年度日本地球化学会第52回年会 (2005)．
• 小池祐一，前田義明，許正憲，藤井輝夫，下島公紀："現場型化学センサによる熱水プルームの化学的挙動の観測"，2005年度日本地球化学会第52回年会 (2005)．
• 藤井輝夫："細胞・組織培養のためのマイクロ流体デバイス"，電気学会研究会資料バイオ・マイクロシステム研究会，東京 (2005)．
• 水野仁二，中村寛子，Serge Ostrovidov，酒井康行，藤井輝夫，笛田洋一，鎌倉大和，村山嘉延，尾股定夫，赤石一幸，渡辺奈津美，平山和宏，栗城瑛子，乾裕昭："Single Embryo Transferに対する新しい培養装置並びに超音波を用いたヒト卵子品質評価システムの開発"，第8回福島リプロダクション研究，福島 (2005)，7．
• 乾裕昭，水野仁二，Serge Ostrovidov，中村寛子，酒井康行，藤井輝夫，赤石一幸，渡辺奈津美，平山和宏，栗城瑛子："ヒトARTのためのmicrofluidic embryo co-cultureシステムによるマウス産仔の作出並びに産仔の染色体解析による安全性の検証"，第50回日本不妊学会 (2005)，O-52．