Search Results - "Fan, Qiyang"

Stretchable hydrogels with low hysteresis and anti-fatigue fracture based on polyprotein cross-linkers by Lei, Hai, Dong, Liang, Li, Ying, Zhang, Junsheng, Chen, Huiyan, Wu, Junhua, Zhang, Yu, Fan, Qiyang, Xue, Bin, Qin, Meng, Chen, Bin, Cao, Yi, Wang, Wei

“…Hydrogel-based devices are widely used as flexible electronics, biosensors, soft robots, and intelligent human-machine interfaces. In these applications, high…”
Get full text

Constitutive model for the growth of a gel network regulated by its microscopic mechanics toward a homeostatic state by Fan, Qiyang, Chen, Bin

“…Growth is one of key issues in understanding how a single fertilized cell can develop into tissues, organs, and a life body of particular shapes to perform…”
Get full text

Constitutive model reveals the defect-dependent viscoelasticity of protein hydrogels by Fan, Qiyang, Chen, Bin, Cao, Yi

“…Proteins with folded domains are quite common in extracellular matrices. Upon loading, mechanical forces will be transmitted down to individual protein chains…”
Get full text

Regulation of product distribution in CO2 hydrogenation by modifying Ni/CeO2 catalysts by Fan, Qiyang, Li, Shiying, Zhang, Li, Wang, Pengfei, Wang, Sen

“…[Display omitted] •Doping Mn or In in Ni/CeO2 significantly effects its CO2 hydrogenation performance.•NiMn(4)/CeO2 produces mainly CH4, while NiIn(4)/CeO2…”
Get full text

Molecular engineering of metal coordination interactions for strong, tough, and fast-recovery hydrogels by Sun, Wenxu, Xue, Bin, Fan, Qiyang, Tao, Runhan, Wang, Chunxi, Wang, Xin, Li, Yiran, Qin, Meng, Wang, Wei, Chen, Bin, Cao, Yi

“…A strong, tough, and fast-recovery hydrogel is engineered by cooperative interactions between histidine-rich peptides and Zn 2+ . Many load-bearing tissues,…”
Get full text