[paper accepted] Zwitterionic peptide monolayers

Protein- and cell-resistance of zwitterionic peptide-based self-assembled monolayers: anti-biofouling tests and surface force analysis. R. Chang, E. A. Q. Mondarte, D. Palai, T. Sekine, A. Kashiwazaki, D. Murakami, M. Tanaka,T. Hayashi. Frontiers in Chemistry 2021. 

[paper accepted] Bioinert monolayers of dendritic molecules

Collaboration with Prof. Motomu Tanaka@Heidelberg University. Dendronized Oligoethylene Glycols with Posphonate Tweezers for Cell-Repellent Coating of Oxide Surfaces: Coarse-Scale and Nanoscopic Interfacial Forces. J. Czajor, W. Abuillan, D.-V. Nguyen, C. Heidebrecht, E. A. Mondarte, O. Konovalov, T. Hayashi, D. Felder-Flesch, S. Kaufmann,M. Tanaka. RSC Advances 2021. 

[Paper accepted] Molecular Recognition Imaging

Visualization of molecular binding sites at the nanoscale in the lift-up mode by amplitude-modulation atomic force microscopy. T. Maekawa, T. Nyu, E. A. Q. Mondarte, H. Tahara, K. Suthiwanich,T. Hayashi. Nanoscale 2021.

[contributing & invited talks] MRS-J 2020

We finished the following presentations@MRS-J 2020. E. A. Q. Mondarte, E. M. M. Zamarripa, R. Chang,T. Hayashi. Probing the macromolecular crowding condition at the interfacial level using colloidal probe atomic force microscopy. T. Hayashi. Data-driven prediction of protein adsorption on self-assembled monolayers:toward material screening and design. In 第30回MRS-J年次大会: online 2020.8th Dec

News releases and appearance in media of our paper on AI-based material design (updating)

Our articles Data-driven prediction of protein adsorption on self-assembled monolayers toward material screening and designRudolf Jason Kwaria, Evan Angelo Quimada Mondarte, Hiroyuki Tahara, Ryongsok Chang, and Tomohiro Hayashihttps://pubs.acs.org/doi/abs/10.1021/acsbiomaterials.0c01008has been introduced in the following WEB sites so far. [In japanese]2020年9月1日付 化学工業日報1面https://www.titech.ac.jp/https://www.titech.ac.jp/news/2020/047725.htmlhttps://educ.titech.ac.jp/mat/news/2020_09/059568.htmlhttp://www.ccsnews.jp/ccs2/2020/3q/2020_3Qtokyotechhayashiddpproteinadsorption.htm[製薬オンライン] https://seiyakuonlinenews.com/news/380023/[non-Japanese]https://www.asianscientist.com/2020/10/in-the-lab/ai-boosts-biomaterials-design/https://www.titech.ac.jp/english/news/2020/047656.htmlhttps://educ.titech.ac.jp/mat/eng/news/2020_09/059565.htmlhttps://www.theweek.in/news/sci-tech/2020/08/26/a-leap-forward-for-ai-driven-biomaterial-design.htmlhttps://phys.org/news/2020-08-biomaterials-ai.html


Evan Angelo Quimada Mondarteを中心とした我々の研究が応用物理学会の機関誌「応用物理」の表紙で紹介されました。 生体分子の特異的結合の分子間相互作用の揺らぎを原子間力顕微鏡を用いて、超高速に観測した世界初の結果です。