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职业迁徙
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Research Interest
Our research focus on developing advanced dynamic biomaterials mimicking extracellular matrix to understand how cells interact with their environment and to gain insight into the manipulating mechanism of cell functions.
(1) Molecular tools for cellular mechanosensing.
One of the central challenges in cellular mechanotransduction is the understanding of the molecular mechanisms that enable cells to modulate their mechanical responses and to sense and actively direct the biophysical properties of the ECM. To elucidate these fundamental mechanisms, cellular mechanotransduction should be studied at molecular levels. We develop molecular tools that can apply or detect forces at individual receptors within readily formed cell-ECM or cell-cell contacts.
(2) Synthetic yet 'living' biomaterials with active, adaptive and autonomous properties.
We established ways to emulate “living” properties within synthetic chemical frameworks through non-equilibrium chemical reaction networks with energy dissipation, kinetic control and feedback loops.
Our research focus on developing advanced dynamic biomaterials mimicking extracellular matrix to understand how cells interact with their environment and to gain insight into the manipulating mechanism of cell functions.
(1) Molecular tools for cellular mechanosensing.
One of the central challenges in cellular mechanotransduction is the understanding of the molecular mechanisms that enable cells to modulate their mechanical responses and to sense and actively direct the biophysical properties of the ECM. To elucidate these fundamental mechanisms, cellular mechanotransduction should be studied at molecular levels. We develop molecular tools that can apply or detect forces at individual receptors within readily formed cell-ECM or cell-cell contacts.
(2) Synthetic yet 'living' biomaterials with active, adaptive and autonomous properties.
We established ways to emulate “living” properties within synthetic chemical frameworks through non-equilibrium chemical reaction networks with energy dissipation, kinetic control and feedback loops.
研究兴趣
论文共 23 篇作者统计合作学者相似作者
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Peng Zhao, Linjie Xu,Bohan Li, Yuanfeng Zhao, Yingshuai Zhao, Yan Lu, Minghui Cao,Guoqi Li,Tsu-Chien Weng,Heng Wang,Yijun Zheng
Advanced materials (Deerfield Beach, Fla.)pp.e2311818-e2311818, (2024)
Yingshuai Zhao, Peng Zhao, Jingyi Zhang,Yuanfeng Zhao,Bohan Li, Guoxiu Hao,Yuanyuan An,Wei Zhou, Yan Lu,Lien-Yang Chou,Yijun Zheng
CCS CHEMISTRYpp.1-49, (2023)
Nature Communicationsno. 1 (2023): 1-9
Nan Cheng, Yile Zhang,Yukai Wu,Bohan Li,Hong Wang,Shaojie Chen, Peng Zhao,Jiaxi Cui,Xiaoqin Shen,Xingjun Zhu,Yijun Zheng
Joanna Aizenberg,Jiaxi Cui,Xiaozhuang Zhou,Yijun Zheng,Haohui Zhang,Li Yang, Yue Cui, B. Nitin Krishnan,Shihua Dong,Michael Aizenberg,An Zeng,Yuhang Hu
Research Square (Research Square) (2021)
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