Molecular mechanism of abnormally large nonsoftening deformation in a tough hydrogel

Ye，Ya Nan1; Cui，Kunpeng2; Hong，Wei1,3; Li，Xueyu1; Yu，Chengtao4; Hourdet，Dominique1,5; Nakajima，Tasuku1,6,7; Kurokawa，Takayuki1,7; Gong，Jian Ping6,7,8

2021-04-06

10.1073/pnas.2014694118

Proceedings of the National Academy of Sciences of the United States of America   影响因子和分区

1091-6490

Tough soft materials usually show strain softening and inelastic deformation. Here, we study the molecular mechanism of abnormally large nonsoftening, quasi-linear but inelastic deformation in tough hydrogels made of hyperconnective physical network and linear polymers as molecular glues to the network. The interplay of hyperconnectivity of network and effective load transfer by molecular glues prevents stress concentration, which is revealed by an affine deformation of the network to the bulk deformation up to sample failure. The suppression of local stress concentration and strain amplification plays a key role in avoiding necking or strain softening and endows the gels with a unique large nonsoftening, quasi-linear but inelastic deformation.

hyperconnective network large quasi-linear deformation molecular glue nonsoftening tough hydrogel

SCI

英语

NI期刊 ; NI论文

其他

WOS:000637398300020

BIOLOGY & BIOCHEMISTRY ; CLINICAL MEDICINE ; MULTIDISCIPLINARY ; PLANT & ANIMAL SCIENCE ; ENVIRONMENT/ECOLOGY ; SOCIAL SCIENCES, GENERAL ; MICROBIOLOGY ; ECONOMICS BUSINESS ; IMMUNOLOGY ; MATERIALS SCIENCE ; MATHEMATICS ; SPACE SCIENCE ; MOLECULAR BIOLOGY & GENETICS ; PHARMACOLOGY & TOXICOLOGY ; CHEMISTRY ; PSYCHIATRY/PSYCHOLOGY ; NEUROSCIENCE & BEHAVIOR ; PHYSICS ; GEOSCIENCES ; AGRICULTURAL SCIENCES ; ENGINEERING

2-s2.0-85103609851

Scopus

1.Global Institution for Collaborative Research and Education,Hokkaido University,Sapporo,001-0021,Japan
2.Institute for Chemical Reaction Design and Discovery, Hokkaido University, 001-0021 Sapporo, Japan; gong@sci.hokudai.ac.jp
3.Department of Mechanics and Aerospace Engineering,Southern University of Science and Technology,Shenzhen,518055,China
4.Graduate School of Life Science,Hokkaido University,Sapporo,001-0021,Japan
5.Soft Matter Science and Engineering,City of Paris Industrial Physics and Chemistry Higher Educational Institution (ESPCI Paris),Paris Sciences et Lettres University (PSL),Sorbonne University,CNRS,Paris,75005,France
6.Institute for Chemical Reaction Design and Discovery,Hokkaido University,Sapporo,001-0021,Japan
7.Faculty of Advanced Life Science,Hokkaido University,Sapporo,001-0021,Japan
8.Global Institution for Collaborative Research and Education, Hokkaido University, 001-0021 Sapporo, Japan; kpcui@sci.hokudai.ac.jp gong@sci.hokudai.ac.jp

Ye，Ya Nan,Cui，Kunpeng,Hong，Wei,et al. Molecular mechanism of abnormally large nonsoftening deformation in a tough hydrogel[J]. Proceedings of the National Academy of Sciences of the United States of America,2021,118(14).

Ye，Ya Nan.,Cui，Kunpeng.,Hong，Wei.,Li，Xueyu.,Yu，Chengtao.,...&Gong，Jian Ping.(2021).Molecular mechanism of abnormally large nonsoftening deformation in a tough hydrogel.Proceedings of the National Academy of Sciences of the United States of America,118(14).

Ye，Ya Nan,et al."Molecular mechanism of abnormally large nonsoftening deformation in a tough hydrogel".Proceedings of the National Academy of Sciences of the United States of America 118.14(2021).