H
He Liu
Researcher at Jilin University
Publications - 22
Citations - 943
He Liu is an academic researcher from Jilin University. The author has contributed to research in topics: Cartilage & Arthritis. The author has an hindex of 13, co-authored 22 publications receiving 614 citations. Previous affiliations of He Liu include Chinese Academy of Sciences.
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Fabrication of Electrospun Polymer Nanofibers with Diverse Morphologies
TL;DR: By carefully regulating the operating condition, modifying needle device, optimizing properties of the polymer solutions, some unique structures of core–shell, side-by-side, multilayer, hollow interior, and high porosity can be obtained.
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Analysis of factors influencing bone ingrowth into three-dimensional printed porous metal scaffolds: A review
Zhonghan Wang,Chenyu Wang,Chen Li,Yanguo Qin,Lei Zhong,Bingpeng Chen,Zhaoyan Li,He Liu,Fei Chang,Jincheng Wang +9 more
TL;DR: In this paper, the effect of 3D printed porous metal scaffolds on bone ingrowth has been investigated and the most appropriate parameters for an excellent porous metal mesh scaffold were identified.
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Component effect of stem cell-loaded thermosensitive polypeptide hydrogels on cartilage repair
TL;DR: The sol-to-gel transition temperature and the critical gelation concentration decreased as the increased amount of phenylalanine unit resulted in the enlarged pore size and enhanced mechanical strength, indicating great potential of thermosensitive polypeptide hydrogels for efficient cartilage repair.
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Injectable Cholesterol-Enhanced Stereocomplex Polylactide Thermogel Loading Chondrocytes for Optimized Cartilage Regeneration.
Chenyu Wang,Naibo Feng,Fei Chang,Jincheng Wang,Baoming Yuan,Yilong Cheng,He Liu,Yu Jiakuo,Jun Zou,Jianxun Ding,Xuesi Chen +10 more
TL;DR: In this article, the thermogels of stereocomplex 4-arm poly(ethylene glycol)-polylactide (PEG-PLA) (scPLAgel) and stere-ocomplex cholesterol-modified 4-armed PEG-plastic (scPLA-Cholgel) were fabricated as scaffolds for cartilage tissue engineering.
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Conductive Composite Fiber with Optimized Alignment Guides Neural Regeneration under Electrical Stimulation
Jin Zhang,Xi Zhang,Chenyu Wang,Feihan Li,Ziwen Qiao,Liangdan Zeng,Zhonghan Wang,He Liu,Jianxun Ding,Huanghao Yang +9 more
TL;DR: On the basis of robust cell induction behavior, optimum sciatic nerve function index, and enhanced remyelination/axonal regeneration, such conductive PCL/CNTs composite fiber with optimized fiber alignment may serve as instructive candidates for promoting the scaffold- and cell-based strategies for neural repair.