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45.Li,Xi and Chen,Bin*2020 Switching cellular swirling upon one-way torsional drive J.Appl.Mech.87(7):071002.
44.Sun,Wenxu,Xue,Bin,Fan,Qiyang,Tao,Runhan,Wang,Chunxi,Wang,Xin,Li,Yiran,Qin,Men,Wang,Wei*,Chen,Bin*,and Cao,Yi*2020 Molecular engineering of metal coordination interactions for strong,tough,and fast-recovery hydrogels.Science Advances.6(16):eaaz9531.
43.Yu,Wenting,Sun,Wenxu,Fan,Qiyang,Xue,Bin Xue,Li,Yiran,Qin,Meng,Li,Ying,Chen,Bin*,Wang,Wei*,and Yi Cao*2019 Tuning of the dynamics of metal ion crosslinked hydrogels by network structures.Soft Matter.15:4423-4427.
42.Fan,Qiyang and Chen,Bin*2019 Constitutive model for the growth of a gel network regulated by its microscopic mechanics toward a homeostatic state.Journal of the Mechanics and Physics of Solids.130:181-194.
41.Wei,Jie,Chen,Xiaofeng and Chen,Bin*2019 Harnessing structural instability for cell durotaxis.Acta Mechanica Sinica.35(2):355-364.
40.Fan,Qiyang,Chen,Bin*,and Cao,Yi*2019 Constitutive model reveals the defect-dependent viscoelasticity of protein hydrogels.Journal of the Mechanics and Physics of Solids.125:653-665.
39.Dong,Chenling,Chen,Xiaofeng,and Chen,Bin*2018 Standard loading profile in matrix rigidity sensing.Biophysical Journal.114:1216-1224.
38.Wu,J.,Li,P.,Dong,C.,Jiang,H.,Xue,B.,Gao,X.,Qin,M.,Wang,W.*,Chen,B.*,and Cao Y.*,2018 Rationally designed synthetic protein hydrogels with predictable mechanical properties.Nature Communications.9:620.
37.Dong,Chenling and Chen,Bin 2017 Quantifying the bending of bilayer temperature-sensitive hydrogels.Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences 473(2200):20170092.
36.Wei,Jie,Dong,Chenling,Chen,Bin 2017 Effects of adenosine triphosphate concentration on motor force regulation during skeletal muscle contraction.Acta Mechanica Sinica 33(2):243-249.
35.Chen,Xiaofeng,Chen,Bin 2016 Simplified Analysis for the Association of a Constrained Receptor to an Oscillating Ligand.Journal of Applied Mechanics-Transactions of the ASME.,83(9):091006.
34.Dong,C.,Chen,B 2016 Coupling of bond breaking with state transition leads to high apparent detachment rates of a single Myosin.Journal of Applied Mechanics-Transactions of the ASME.83(5):051011.
33.Dong,C.and Chen,B.,2016 Temperature effect on the chemomechanical regulation of substeps within the power stroke of a single Myosin II.Scientific Reports.6:19506.
32.Dong,C.and Chen,B.2015 Catch-slip bonds can be dispensable for motor force regulation during skeletal muscle contraction.Physical Review E 92:012723.
31.Fang,J.,Chen B.,Pan,H.2015 Anomalous friction of graphene nanoribbons on waved graphenes.Theor.Appl.Mech.Lett.5(6):222-226.
30.Mao,Z.,Chen,X.,Chen B.2015 Stability of focal adhesion enhanced by its inner force fluctuation.Chin.Phys.B.24(8):088702.
29.Chen,X.,Li,D.,Ji,B.,and Chen B.2015 Reconciling bond strength of a slip bond at low loading rates with rebinding.Europhysics Letters.109(6):68002.
28.Wang,L.,Li,Y.,Chen,B.,Liu,S.,Li,M.,Zheng,L.,Wang,P.,Lu,T.J.,and Xu F.,2015 Patterning cellular alignment through stretching hydrogels with programmable strain gradients.ACS Appl.Mater.Interfaces 7(27):15088–15097.
27.Chen,B.,Chen,X.,and Gao,H.,2015 Dynamics of cellular reorientation on a substrate under biaxial cyclic stretches.Nano Letters.15(8):5525-9.
26.Chen,B.,Ji,B.,and Gao,H.,2015 Modeling active mechanosensing in cell–matrix interactions.Annual Review of Biophysics.44:1-32.
25.Chen,X.,Mao,Z.X.,and Chen,B.,2015 Probing time-dependent mechanical behaviors of catch bonds based on two-state models.Scientific reports.5:7868.
24.Chen,X.and Chen,B.,2014 Probing the instability of a cluster of slip bonds upon cyclic loads with a coupled finite element analysis and Monte Carlo method.Journal of applied mechanics-Transactions of the ASME.81(11):111002.
23.Chen,B.,and Dong,C.,2014 Modeling Deoxyribose Nucleic Acid as an elastic rod inlaid with fibrils.Journal of applied mechanics-Transactions of the ASME.81(7):071005.
22.Chen,B.,2014 Probing the effect of random adhesion energy on receptor-mediated endocytosis with a semistochastic model.Journal of applied mechanics-Transactions of the ASME.81(8):081013.
21.Pan,H.,Chen,B.,2014 Ultra-flexibility and unusual electronic,magnetic and chemical properties of waved graphenes and nanoribbons.Scientific Reports.4:4198.
20.Cheng,Y.,Pugno,N.,Shi,X.,Chen,B.,Gao,H.,2013 Surface energy-controlled self-collapse of Carbon Nanotube bundles with large and reversible volumetric deformation.Journal of applied mechanics-Transactions of the ASME.80(4):040902.
19.Chen,B.,2013 Self-regulation of motor force through chemomechanical coupling in skeletal muscle contraction.Journal of Applied Mechanics-Transactions of the ASME.80(5):051013.
18.Chen,B.,Kemkemer,R.,Deibler,M.,Spatz,J.,Gao,H.,2012 Cyclic Stretch Induces Cell Reorientation on Substrates by Destabilizing Catch Bonds in Focal Adhesions.PLoS ONE.7(11):e48346.
17.Chen,B.,2012.A shear lag analysis predicts the strong size effect on the persistence length of microtubules,Applied Physics Letters.101:093708.
16.Chen,B.and Gao,H.,2012.Are mammals ferroelectric?Physics.5:19.(Viewpoint of PRL)
15.Cheng,Q.,Chen,B.,Gao,H.,Zhang,Y.,2012.Sliding-induced non-uniform pre-tension governs robust and reversible adhesion-a revisit of adhesion mechanisms of gecko.Journal of the royal society Interface.9:283.
14.Chen,B.and Gao,H.,2011.Motor force in skeletal muscle contraction.Biophysical Journal.101:396.
13.Gao,H.,Qian,J.,and Chen,B.,2011.Probing mechanical principles of focal contacts in cell-matrix adhesion in a coupled stochastic-elastic modeling framework.Journal of the royal society Interface.8:1217.
12.Chen,B.and Gao,H.,2010.Mechanical principle of enhancing cell-substrate adhesion via pretension.Biophysical Journal.98:2154.
11.Chen,B.and Gao,H.,2010.An alternative explanation of the effect of humidity in gecko adhesion:stiffness reduction enhances adhesion on a rough surface.International Journal of Applied Mechanics.2:1.
10.Chen,B.,Wu,P.D.,and Gao,H.,2009.Geometry-and velocity-constrained cohesive zones and mixed mode fracture/adhesion energy with periodic cohesive interactions.Proceedings of Royal Society A-Mathematical Physical and Engineering Sciences.465:1043.
9.Chen,B.,Wu,P.D.,and Gao,H.,2009.A characteristic length for stress transfer in the nanostructure of biological composites.Composites Science and Technology.69:1160.
8.Chen,B.,Shi,X.H.,and Gao,H.,2008.Apparent fracture/adhesion energy of interfaces with periodic cohesive interactions.Proceedings of Royal Society A-Mathematical Physical and Engineering Sciences.464:657-671.
7.Chen,B.,Wu,P.D.,and Gao,H.,2008.Hierarchical modeling of attachment and detachment mechanisms of gecko toe adhesion.Proceedings of Royal Society A-Mathematical Physical and Engineering Sciences.464:1639-1652.
6.Chen,B.,Wu,P.D.,and Huang,Y.,2008.Detaching speed of a fibrillar interface.Applied physics letters.93:103901.
5.Chen,B.,Wu,P.D.,and Gao,H.,2008.Pre-tension generates strongly reversible adhesion of a spatula pad on substrate.Journal of the royal society Interface.6:529.
4.Chen,B.,Huang,Y.,Liu,C.,Wu,P.D.,and MacEwen,S.R.,2004.A dilatational plasticity theory for viscous materials.Mechanics of Materials.36:679.
3.Chen,B.,Huang,Y.,Gao,H.,and Wu,P.D.,2004.Shear crack propagation along weak planes in solids:a finite deformation analysis incorporating the linear harmonic potential.International Journal of Solids and Structures.41:1.
2.Chen,B.,Huang,Y.,Gao,H.,and Yang,W.,2004.On the finite opening of intersonic shear cracks.International Journal of Solids and Structures.41:2293.
1.Chen,B.,Gao,M.,Zuo,J.M.,Qu,S.,Liu,B.,and Huang,Y.,2003.Binding energy of parallel carbon nanotubes.Applied Physics Letters.83:3570.