| An underwater surface‐drying peptide inspired by a mussel adhesive protein W Wei, L Petrone, YP Tan, H Cai, JN Israelachvili, A Miserez, JH Waite Advanced functional materials 26 (20), 3496-3507, 2016 | 212 | 2016 |
| Infiltration of chitin by protein coacervates defines the squid beak mechanical gradient YP Tan, S Hoon, PA Guerette, W Wei, A Ghadban, C Hao, A Miserez, ... Nature chemical biology 11 (7), 488-495, 2015 | 200 | 2015 |
| Hydrogen bond guidance and aromatic stacking drive liquid-liquid phase separation of intrinsically disordered histidine-rich peptides B Gabryelczyk, H Cai, X Shi, Y Sun, PJM Swinkels, S Salentinig, ... Nature communications 10 (1), 5465, 2019 | 158 | 2019 |
| Time-Resolved Observations of Liquid–Liquid Phase Separation at the Nanoscale Using in Situ Liquid Transmission Electron Microscopy H Le Ferrand, M Duchamp, B Gabryelczyk, H Cai, A Miserez Journal of the American Chemical Society 141 (17), 7202-7210, 2019 | 90 | 2019 |
| Self-coacervation of modular squid beak proteins–a comparative study H Cai, B Gabryelczyk, MSS Manimekalai, G Grüber, S Salentinig, ... Soft Matter 13 (42), 7740-7752, 2017 | 69 | 2017 |
| An interpretable machine-learning algorithm to predict disordered protein phase separation based on biophysical interactions H Cai, RM Vernon, JD Forman-Kay Biomolecules 12 (8), 1131, 2022 | 38 | 2022 |
| A spatiotemporal reconstruction of the C. elegans pharyngeal cuticle reveals a structure rich in phase-separating proteins M Kamal, L Tokmakjian, J Knox, P Mastrangelo, J Ji, H Cai, ... Elife 11, e79396, 2022 | 12 | 2022 |
