Center forSoft and Living Matter
Steve Granick Group
Bartosz Grzybowski Group
Yoon-Kyoung Cho Group
Tsvi Tlusty Group
Hyuk Kyu Pak Group
John T. King Group
Affiliated Professor Group
Phosphorescent extensophores expose elastic nonuniformity in polymer networks
Nat. Commun.14.1(2023):537
Oil-on-water droplets faceted and stabilized by vortex halos in the subphase
PNAS.120.4(2023):e2214657120
Experimental Guidelines to Image Transient Single-Molecule Events Using Graphene Liquid Cell Electron Microscopy
ACS Nano(2022)
Biopolymer Filament Entanglement Softens Then Hardens with Shear
Phys. Rev. Lett. 129.14(2022):147801
Reply to “Comment on ‘Molecules, the Ultimate Nanomotor: Linking Chemical Reaction Intermediates to their Molecular Diffusivity’”
ACS Nano 16.7(2022):9977-9981
Comment on “Following molecular mobility during chemical reactions: no evidence for active propulsion” and “Molecular diffusivity of click reaction co..
ChemRxiv(2022)
Response of vesicle shapes to dense inner active matter
Soft Matter.18.34(2022):6419-6425
Molecules, the Ultimate Nanomotor: Linking Chemical Reaction Intermediates to their Molecular Diffusivity
ACS nano.15.(2021):14947-14953
Reply to Comment on “Using NMR to Test Molecular Mobility during a Chemical Reaction”
J. Phys. Chem. Lett.12.24.(2021):5744-5747
Active phase separation by turning towards regions of higher density
Nat. Phys. (2021):1-7
Using NMR to Test Molecular Mobility during a Chemical Reaction
J PHYS CHEM C 12.(2021):2370-2375
Reincarnations of the phase separation problem
NAT COMMUN 12.1.(2021):1-3
Response to Comment on “Boosted molecular mobility during common chemical reactions”
SCIENCE 371.6526(2021)
Master curve of boosted diffusion for 10 catalytic enzymes
PNAS 117.47(2020):29435-29441
Anatomy of cage formation in a two-dimensional glass-forming liquid
NATURE 587.7833(2020):225-229