期刊论文

Xie, XY;Guan, GP

英文

Colloids and Surfaces B: Biointerfaces

0927-7765

2025

253

114704

10.1016/j.colsurfb.2025.114704

sources This study was supported by the Health Commission of Hunan Province (Project No. W20243139 and No. 20200057 ), and the "co-PI" project from The Third Xiangya hospital of Central South University (Project No. 202409 ). CRediT authorship contribution statement Xinying Wang: Methodology. Shuangjiang Li: Formal analysis. Wenhui Ge: Formal analysis. Yiyu Zeng: Methodology. Tao Ma: Writing – original draft. Gaopeng Guan: Project administration. Yijun Gao: Conceptualization. Shanshan Jiang: Formal analysis. Yi Yu: Writing – review & editing, Visualization. Xiaoyan Xie: Visualization, acquisition.

本校为其他机构

Peptide hydrogels have gained widespread attention in biomedical engineering due to their unique ability to mimic the cellular microenvironment in vivo. Stimulus-responsive self-assembled (SAP) hydrogels can undergo conformational changes in response to changes in the external environment, prompting a sol-gel transition. Their inherent biodegradability, excellent surface activity and biocompatibility make them ideal candidates for a wide range of biomedical applications, and these SAP hydrogels can be widely used in the fields of tissue engineering, cell and drug delivery, wound healing and me...