Modeling semiflexible polymer networks CP Broedersz, FC MacKintosh Reviews of Modern Physics 86 (3), 995, 2014 | 792 | 2014 |
Criticality and isostaticity in fiber networks CP Broedersz, X Mao, TC Lubensky, FC MacKintosh Nature Physics 7 (12), 983-988, 2011 | 399 | 2011 |
Broken detailed balance at mesoscopic scales in active biological systems C Battle, CP Broedersz, N Fakhri, VF Geyer, J Howard, CF Schmidt, ... Science 352 (6285), 604-607, 2016 | 358 | 2016 |
Broken detailed balance and non-equilibrium dynamics in living systems: a review FS Gnesotto, F Mura, J Gladrow, CP Broedersz Reports on Progress in Physics 81 (6), 066601, 2018 | 300 | 2018 |
Cell contraction induces long-ranged stress stiffening in the extracellular matrix YL Han, P Ronceray, G Xu, A Malandrino, RD Kamm, M Lenz, ... Proceedings of the National Academy of Sciences, 201722619, 2018 | 296 | 2018 |
Hydrogenography: an optical combinatorial method to find new light‐weight hydrogen‐storage materials R Gremaud, CP Broedersz, DM Borsa, A Borgschulte, P Mauron, ... Advanced Materials 19 (19), 2813-2817, 2007 | 246 | 2007 |
Origins of elasticity in intermediate filament networks YC Lin, NY Yao, CP Broedersz, H Herrmann, FC MacKintosh, DA Weitz Physical review letters 104 (5), 058101, 2010 | 238 | 2010 |
Fiber networks amplify active stress P Ronceray, CP Broedersz, M Lenz Proceedings of the national academy of sciences 113 (11), 2827-2832, 2016 | 204 | 2016 |
Cross-link-governed dynamics of biopolymer networks CP Broedersz, M Depken, NY Yao, MR Pollak, DA Weitz, FC MacKintosh Physical review letters 105 (23), 238101, 2010 | 176 | 2010 |
Actin filament length tunes elasticity of flexibly cross-linked actin networks KE Kasza, CP Broedersz, GH Koenderink, YC Lin, W Messner, ... Biophysical journal 99 (4), 1091-1100, 2010 | 161 | 2010 |
Filament-length-controlled elasticity in 3D fiber networks CP Broedersz, M Sheinman, FC MacKintosh Physical review letters 108 (7), 078102, 2012 | 143 | 2012 |
Measurement of nonlinear rheology of cross-linked biopolymer gels CP Broedersz, KE Kasza, LM Jawerth, S Münster, DA Weitz, ... Soft Matter 6 (17), 4120-4127, 2010 | 136 | 2010 |
Divalent cations crosslink vimentin intermediate filament tail domains to regulate network mechanics YC Lin, CP Broedersz, AC Rowat, T Wedig, H Herrmann, FC MacKintosh, ... Journal of molecular biology 399 (4), 637-644, 2010 | 132 | 2010 |
Nonlinear elasticity of composite networks of stiff biopolymers with flexible linkers CP Broedersz, C Storm, FC MacKintosh Physical review letters 101 (11), 118103, 2008 | 125 | 2008 |
Stochastic nonlinear dynamics of confined cell migration in two-state systems DB Brückner, A Fink, C Schreiber, PJF Röttgermann, JO Rädler, ... Nature Physics 15 (6), 595-601, 2019 | 123 | 2019 |
Condensation and localization of the partitioning protein ParB on the bacterial chromosome CP Broedersz, X Wang, Y Meir, JJ Loparo, DZ Rudner, NS Wingreen Proceedings of the National Academy of Sciences 111 (24), 8809-8814, 2014 | 113 | 2014 |
Molecular motors stiffen non-affine semiflexible polymer networks CP Broedersz, FC MacKintosh Soft Matter 7 (7), 3186-3191, 2011 | 110 | 2011 |
Nonlinear elasticity of stiff biopolymers connected by flexible linkers KE Kasza, GH Koenderink, YC Lin, CP Broedersz, W Messner, ... Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 79 (4 …, 2009 | 103 | 2009 |
Multi-scale strain-stiffening of semiflexible bundle networks IK Piechocka, KA Jansen, CP Broedersz, NA Kurniawan, FC MacKintosh, ... Soft matter 12 (7), 2145-2156, 2016 | 96 | 2016 |
Nonlinear effective-medium theory of disordered spring networks M Sheinman, CP Broedersz, FC MacKintosh Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 85 (2 …, 2012 | 96 | 2012 |