論文
[9] "Membrane-enhanced repulsive interactions regulate protein diffusion in cell-size space",
Hiroki Sakuta, Yuki Kanakubo, Sakura Takada, Naoya Yanagisawa, Tatsuro Oda, Koichi Mayumi, Koichiro Sadakane, Kei Fujiwara, Miho Yanagisawa.
submitted (bioRXiv)
[8] "Spatiotemporal evolution of heterogeneous structures in agarose gels revealed by particle tracking"
Naoya Yanagisawa, Takemi Hara and Miho Yanagisawa.
Soft Matter, Royal Society of Chemistry, Vol 21, 262-268 (2025).
[7] "Marangoni droplets of dextran in PEG solution and its motile change due to coil-globule transition of coexisting DNA"
Tomohiro Furuki, Hiroki Sakuta, Naoya Yanagisawa, Shingo Tabuchi, Akari Kamo, Daisuke S. Shimamoto and Miho Yanagisawa.
ACS Applied Materials & Interfaces, 16(32), 43016−43025 (2024). (arXiv:2306.07494v2)
東京大学 大学院総合文化研究科・教養学部より報道発表
[6] "Cell-sized confinements alter molecular diffusion in concentrated polymer solutions due to length-dependent wetting of polymers"
Yuki Kanakubo, Chiho Watanabe, Johtaro Yamamoto, Naoya Yanagisawa, Hiroki Sakuta, Arash Nikoubashman and Miho Yanagisawa.
ACS Materials Au, 3(5) 442-449 (2023).
[5] "Cross over to collective rearrangements near the dry-wet transition in two-dimensional foams"
Naoya Yanagisawa and Rei Kurita.
Scientific Reports, Nature Publishing Group, Vol 13, Article number : 4939 (2023).
東京都立大学より報道発表
[4] “Dynamics and mechanism of liquid film collapse in a foam”
Naoya Yanagisawa, Marie Tani and Rei Kurita.
Soft Matter, Royal Society of Chemistry, Vol 17, 1738-1745 (2021).
東京都立大学より報道発表
EurekAlert!に掲載
Physics Todayで紹介 (DOI:10.1063/PT.6.1.20210309a)
朝日新聞デジタル「おしゃべりにマスク必要なわけ マイクロ飛沫の生まれ方」で紹介
Back Coverに選出
[3] “Size distribution dependence of collective relaxation dynamics in a two-dimensional wet foam”
Naoya Yanagisawa and Rei Kurita.
Scientific Reports, Nature Publishing Group, Vol 11, Article number : 2786 (2021).
東京都立大学より報道発表
EurekAlert!に掲載
[2] “In-situ observation of collective bubble collapse dynamics in a quasi-two-dimensional foam”
Naoya Yanagisawa and Rei Kurita.
Scientific Reports, Nature Publishing Group, Vol 9, Article number : 5152 (2019).
首都大学東京より報道発表
EurekAlert!に掲載
Ars Technicaで紹介
[1] “Dynamical transition in a jammed state of a quasi-two-dimensional foam”
Rei Kurita, Yujiro Furuta, Naoya Yanagisawa and Noriko Oikawa.
Physical Review E, The American Physical Society, Vol 95, 062613 (2017).