Archive
News 2020
2021.3.30
Award Announcement
Our research proposal "Digitally programmable drug-release implantable device developed by the fusion of bio, chemistry and optoelectronics" was selected for Tokyo Tech Fund (Interdisciplinary Research Support for Scientists).
We push forward this project with Profs. Sawada, Kadonosono and Tokuda in TokyoTech to realize "Fantastic Voyage"!
2021.3.26
Graduation Ceremony
Ayano, Megumi and Shu received Bachelor's Degrees from TokyoTech.
Meiting, Takumi and Yuma also graduated from Waseda University.
Congratulations and good luck on your prestigious future!!
Conference Information
2021.3.22-24, 電気化学会第88回大会
https://confit.atlas.jp/guide/event/ecsj2021s/top
[1] 藤田 創, 山岸 健人, 田原 優, 橋本 道尚, 藤枝 俊宣.「フェニルボロン酸ハイドロゲルと薄膜状キャパシタを用いた高血糖状態の検出機構の開発と無線伝送への応用」電気化学会第88回大会 (2021.3.22., オンライン).
2021.3.18-21, 日本農芸化学会2021年度大会
[1] 谷口 広晃, 秋山 和広, 藤枝 俊宣.「超軽量・柔軟な導電性ナノシートを用いた植物葉の生体電位測定」日本農芸化学会2021年度大会 (2021.3.21., オンライン).
2020.10.23
Award Announcement
Our paper was selected for BCSJ Award Article, and also highlighted by cover art. Congratulations!
Taniguchi, H., Akiyama, K., Fujie, T*(Corresponding). Biopotential Measurement of Plant Leaves with Ultra-light and Flexible Conductive Polymer Nanosheets. B. Chem. Soc. Jpn., 93, 1007-1013 (2020). (DOI: 10.1246/bcsj.20200064)
2020.9.11
Call for Papers
RESEARCH TOPIC ARTICLE COLLECTION in Frontiers in Materials:
Polymer and Composite Conductive Materials for Flexible and Stretchable Electronics
ABSTRACT SUBMISSION: 11 September 2020 | MANUSCRIPT SUBMISSION: 11 December 2020
MORE INFORMATION
Conference Information
2020.9.16-18, 第69回高分子討論会
https://main.spsj.or.jp/tohron/69tohron/index.html
[1] 藤枝 俊宣, 末松 良隆, 武岡 真司.「多孔質ナノシートを用いた脂肪組織由来幹細胞のスフェロイド形成制御」第69回高分子討論会 (2020.9.17., オンライン).
2020.9.8-11, 第81回応用物理学会秋季学術講演会
[1] 藤田 創, 山岸 健人, 橋本 道尚, 藤枝 俊宣.「グルコース感受性ハイドロゲルと薄膜状キャパシタからなる無線通信型血糖値測定デバイスの開発」第81回応用物理学会春季学術講演会 (2020.9.10., オンライン).
[2] 齋藤 優人, 松谷 哲行, 金井 詠一, 藤枝 俊宣.「生体内埋め込みに向けた誘導加熱型薄膜状発熱デバイス」第81回応用物理学会春季学術講演会 (2020.9.10., オンライン).
[3] 高橋 利昌, 太田 宏之, 藤枝 俊宣, 澤田 和明, 髙橋 一浩.「非標識神経伝達物質検出に向けた分子インプリント法によるMEMS 光干渉型表面応力センサの作製」第81回応用物理学会春季学術講演会 (2020.9.9., オンライン).
2020.7.15
Award Announcement
藤枝が一般財団法人バイオインダストリー協会 より第4回バイオインダストリー奨励賞「生体接着性オプトエレクトロニクスによる革新的光がん治療システムの創製 」を受賞しました。
2020.7.1
Award Announcement
Hajime received Best Presentation Award from TokyoTech Super Smart Society (SSS) Promotion Consortium.
This consortium envisions to develop future leaders who are capable of supporting the transformation to Super Smart Society.
Congratulations!!
2020.6.19
New paper is out!
We investigated a porous nanosheet for engineering spheroids consisting of adipose tissue-derived stem cells (ASCs).
This work has been achieved under the collaboration with Kanazawa University. This paper was also highlighted by the part of the themed collection: Journal of Materials Chemistry B Emerging Investigators.
Suematsu, Y., Tsai, Ya An., Takeoka, S., Franz, C.M., Arai, S. Fujie, T*(Corresponding). Ultra-thin, transparent, porous substrates as 3D culture scaffolds for engineering ASC spheroids for high-magnification imaging. J. Mater. Chem. B, in press (2020). (DOI: 10.1039/D0TB00723D)
https://pubs.rsc.org/en/content/articlelanding/2020/tb/d0tb00723d#!divAbstract
2020.6.9
New paper is out!
We developed a new computational model, coupling finite element modeling and smooth particle hydrodinamics, to predict the contraction behavior of biohybrid systems.
This work has been achieved under the collaboration with Scuola Superiore Sant'Anna, Italy. This paper was also highlight by Hot Topic: Robotics.
Vannozzi, L., Mazzocchi, T., Hasebe, A., Takeoka, S., Fujie, T*(Corresponding)., Ricotti, L.* A coupled FEM-SPH modeling technique to investigate the contractility of biohybrid thin films. Adv. Biosyst., 4, 1900306 (2020). (DOI: 10.1002/adbi.201900306)
2020.6.5
New paper is out!
We developed ultra-light and flexible conductive nanosheets for biopotential measurement of plant leaves under the collaboration with Waseda University Senior High School.
Taniguchi, H., Akiyama, K., Fujie, T*(Corresponding). Biopotential Measurement of Plant Leaves with Ultra-light and Flexible Conductive Polymer Nanosheets. B. Chem. Soc. Jpn., in press (2020). (DOI: 10.1246/bcsj.20200064)
https://www.journal.csj.jp/doi/abs/10.1246/bcsj.20200064
https://www.titech.ac.jp/news/2020/047193.html
https://www.nikkei.com/article/DGKKZO60552180Z10C20A6MY1000/
Conference Information (Only preprints)
[1] 藤田 創, 山岸 健人, 橋本 道尚, 藤枝 俊宣.「グルコース感受性ハイドロゲルと薄膜状キャパシタからなる皮膚貼付型デバイスの開発」第69回高分子学会年次大会 (2020.5.28., 福岡). https://main.spsj.or.jp/nenkai/69nenkai/jp/nenkai_home.html
[2] 齋藤 優人, 松谷 哲行, 金井 詠一, 藤枝 俊宣.「生体内埋め込みに向けた無線給電式薄膜状発熱デバイスの開発」第69回高分子学会年次大会 (2020.5.28., 福岡). https://main.spsj.or.jp/nenkai/69nenkai/jp/nenkai_home.html
[3] 藤枝 俊宣.「メトロノミック光線力学療法に向けた埋め込み型発光デバイスの開発」第59回日本生体医工学会 (2020.5.25., 岡山). https://ww2.med-gakkai.org/jsmbe2020/
2020.5.18
New paper is out!
We contributed to the development of a stretchable plasmonic metasheet for e-skin applications.
This work has been achieved under the collaboration with Toyohashi University of Technology.
Kumagai, H., Fujie, T., Sawada, K., Takahashi, K. Stretchable and High-Adhesive Plasmonic Metasheet using Al Subwavelength Grating Embedded in an Elastomer Nanosheet. Adv. Opt. Mater., 8, 1902074 (2020). (DOI: 10.1002/adom.201902074)
https://onlinelibrary.wiley.com/doi/abs/10.1002/adom.201902074
https://www.titech.ac.jp/news/2020/047134.html
2020.5.1
New paper is out!
Yuma reviewed recent development of nanosheet technology for supporting the supple actuation of soft robots (Japanese only).
鉄 祐磨, 藤枝 俊宣. 「ソフトロボットのしなやかな動きを支えるナノ薄膜型デバイス」, 高分子, 69, 210-211 (2020).
2020.4.21
New paper is out!
Arihiro & Yoshitaka contributed to the development of engineered substrates for primary neuron culture.
This work has been achieved under the collaboration with Tokai University.
Otomo, A., Takahashi Ueda, M., Fujie, T., Hasebe, A., Suematsu, Y., Okamura, Y., Takeoka, S., Hadano, S., Nakagawa, S. Efficient differentiation and polarization of primary cultured neurons on poly(lactic acid) scaffolds with microgrooved structures. Sci. Rep., 10, 6716 (2020). (DOI: 10.1038/s41598-020-63537-z)
2020.4.15
New paper is out!
We contributed to the development of wet-adhesive nanosheets for wound dressing applications.
This work has been achieved under the collaboration with South China University of Technology.
Xuan, C., Hao, L., Liu, X., Zhu, Y., Yang, H., Ren, Y., Wang, L., Fujie, T., Wu, H., Chen, Y., Shi, X., Mao, C. Wet-adhesive, haemostatic and antimicrobial bilayered composite nanosheets for sealing and healing soft-tissue bleeding wounds. Biomaterials, 252, 120018 (2020). (DOI: 10.1016/j.biomaterials.2020.120018)
https://www.sciencedirect.com/science/article/pii/S0142961220302647?dgcid=rss_sd_all
2020.4.1
Members Updated!
Welcome Dr. Tatsuhiro Horii to our group.