Lu Zheng, Dongyuan Lü, Fan Zhang, Min Xing, Xiaoya Wang, Xiaohua Ji, Xinyu Shu, Peiwen Li, Shouqin Lü, Jiang Chang*, Mian Long*. Regulation of hepatic differentiation of human embryonic stem cells by calcium silicate extracts for liver injury repairing. Applied materials today 2020, 20:100730
Lili Sheng, Zhaowenbin Zhang, Yu Zhang, Endian Wang, Bing Ma, Qing Xu, Lingling Ma, Meng Zhang, Ge Pei, Jiang Chang*. A novel “hot spring”-mimetic hydrogel with excellent angiogenic properties for chronic wound healing. Biomaterials 2020, 264,120414.
Qing Xu, Mengling Chang, Yu Zhang, Endian Wang, Min Xing, Long Gao, Zhiguang Huan, Feng Guo*, Jiang Chang*. PDA/Cu bioactive hydrogel with “hot ions effect” for inhibition of drug-resistant bacteria and enhancement of infectious skin wound healing. ACS Applied Materials & Interfaces, 2020, 12, 31255-31269. DOI: 10.1021/acsami.0c08890 (IF=8.456)
Long Gao, Min Yi, Min Xing, Hekai Li, Yanling Zhou, Qing Xu, Zhaowenbin Zhang, Zhanpeng Wen, Jiang Chang*. In situ activated mesenchymal stem cell (MSCs) by bioactive hydrogel for myocardial infarction treatment. Journal of Materials Chemistry B. (2020).
Zhaowenbin Zhang, Qiuxia Dai, Yu Zhang, Hui Zhuang, Endian Wang, Qing Xu, Lingling Ma, Chengtie Wu, Zhiguang Huan, Feng Guo*, Jiang Chang*. Design of a Multifunctional Biomaterial Inspired by Ancient Chinese Medicine for Hair Regeneration in Burned Skin. ACS Applied Materials & Interfaces 12:12489-12499 (2020) (IF=8.456)
Fangfang Wang, Xiaoya Wang, Kui Ma, Cuiping Zhang*, Jiang Chang*, Xiaobing Fu*. Akermanite bioceramic enhances wound healing with accelerated reepithelialization by promoting proliferation, migration, and stemness of epidermal cells. Wound repair and regeneration 28(1):16-25 (2020) (IF=2.85)
Xiaoya Wang, Meng Zhang, Jingge Ma, Mengchi Xu,Jiang Chang,Chengtie Wu*, 3D printing of cell containers-like scaffolds for multi-cells tissue engineering, Engineering (2020) (IF=4.568)
Chun Feng, Bing Ma, Mengchi Xu, Dong Zhai, Yin Liu, Jianmin Xue, Jiang Chang, Chengtie Wu*. 3D printing of scaffolds with synergistic effects of micro-nano surface and hollow channels for bone regeneration. ACS Biomaterials Science & Engineering (2020) DOI:10.1021/acsbiomaterials.9b01824 (IF=4.511)