Chase P. Broedersz
Chase P. Broedersz
Associate Professor of Theoretical Physics, VU Amsterdam and LMU Munich
Verified email at vu.nl - Homepage
Title
Cited by
Cited by
Year
Modeling semiflexible polymer networks
CP Broedersz, FC MacKintosh
Reviews of Modern Physics 86 (3), 995, 2014
4192014
Criticality and isostaticity in fiber networks
CP Broedersz, X Mao, TC Lubensky, FC MacKintosh
Nature Physics 7 (12), 983-988, 2011
2612011
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
1962007
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
1662010
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
1372016
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
1152010
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
1012010
Nonlinear elasticity of composite networks of stiff biopolymers with flexible linkers
CP Broedersz, C Storm, FC MacKintosh
Physical review letters 101 (11), 118103, 2008
992008
Filament-length-controlled elasticity in 3D fiber networks
CP Broedersz, M Sheinman, FC MacKintosh
Physical review letters 108 (7), 078102, 2012
982012
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
952010
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
932010
Fiber networks amplify active stress
P Ronceray, CP Broedersz, M Lenz
Proceedings of the national academy of sciences 113 (11), 2827-2832, 2016
912016
Nonlinear elasticity of stiff biopolymers connected by flexible linkers
KE Kasza, GH Koenderink, YC Lin, CP Broedersz, W Messner, ...
Physical Review E 79 (4), 041928, 2009
842009
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
822018
Molecular motors stiffen non-affine semiflexible polymer networks
CP Broedersz, FC MacKintosh
Soft Matter 7 (7), 3186-3191, 2011
792011
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
752014
Combinatorial thin film methods for the search of new lightweight metal hydrides
B Dam, R Gremaud, C Broedersz, R Griessen
Scripta materialia 56 (10), 853-858, 2007
722007
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
662018
Nonlinear effective-medium theory of disordered spring networks
M Sheinman, CP Broedersz, FC MacKintosh
Physical Review E 85 (2), 021801, 2012
642012
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
522016
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