W
Wenxin Wang
Researcher at University College Dublin
Publications - 232
Citations - 8759
Wenxin Wang is an academic researcher from University College Dublin. The author has contributed to research in topics: Self-healing hydrogels & Polymerization. The author has an hindex of 46, co-authored 217 publications receiving 6936 citations. Previous affiliations of Wenxin Wang include Eindhoven University of Technology & University of Manchester.
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Journal ArticleDOI
Paintable and Rapidly Bondable Conductive Hydrogels as Therapeutic Cardiac Patches
Shuang Liang,Yinyu Zhang,Hongbo Wang,Ziyang Xu,Jingrui Chen,Rui Bao,Tan Baoyu,Yuan-Lu Cui,Guanwei Fan,Wenxin Wang,Wei Wang,Wenguang Liu +11 more
TL;DR: A paintable hydrogel is constructed based on Fe3+ -triggered simultaneous polymerization of covalently linked pyrrole and dopamine in the hyperbranched chains where the in situ formed conductive polypyrrole also uniquely serves to crosslink network.
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Role of adipose-derived stem cells in wound healing.
TL;DR: The pathogenesis of chronic wounds, role of stem cells in wound healing, and more specifically the role of ASCs, their mechanism of action and their safety profile in wound repair and tissue regeneration are reviewed.
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Bioapplications of hyperbranched polymers
TL;DR: The present review highlights the contribution of HBPs to biological and biomedical fields with intent to aid the researchers in exploring HBPs for bioapplications.
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Application of a microfluidic chip-based 3D co-culture to test drug sensitivity for individualized treatment of lung cancer.
Zhiyun Xu,Yanghui Gao,Yuanyuan Hao,Encheng Li,Yan Wang,Jianing Zhang,Wenxin Wang,Zhancheng Gao,Qi Wang +8 more
TL;DR: A microfluidic chip-based, three-dimensional co-culture drug sensitivity test platform that smoothly assayed the sensitivities of different anti-cancer drugs in parallel and accurately screened appropriate-dose, single and combined-drug chemotherapy schemes for eight patients.
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Control of pore size and structure of tissue engineering scaffolds produced by supercritical fluid processing.
Hongyun Tai,Melissa L. Mather,Daniel Howard,Wenxin Wang,Lisa J. White,John A. Crowe,Steve Morgan,Amit Chandra,David J. Williams,Steven M. Howdle,Kevin M. Shakesheff +10 more
TL;DR: This study has demonstrated that the pore size and structure of the supercritical PDLLA and PLGA scaffolds can be tailored by careful control of processing conditions.