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热烈祝贺周老师COLLOIDS AND SURFACES A论文入选2018-1/2月ESI热点论文!!!
来源:焦体峰教授个人网站 发布日期:2018-05-13

热点论文是在过去两年内发表,并且在 一月/二月 2018 内受到引用的次数是其学术领域中最优秀的 0.1% 之列。


Preparation and enhanced structural integrity of electrospun poly(epsilon-caprolactone)-based fibers by freezing amorphous chains through thiol-ene click reaction作者:Zhou, JX (Zhou, Jingxin)[ 1 ] ; Liu, YM (Liu, Yamei)[ 1 ] ; Jiao, TF (Jiao, Tifeng)[ 1,2 ] ; Xing, RR (Xing, Ruirui)[ 1,3 ] ; Yang, ZQ (Yang, Zhiqiang)[ 1 ] ; Fan, JZ (Fan, Jizhou)[ 4 ] ; Liu, JZ (Liu, Jianzhao)[ 4 ] ; Li, BB (Li, Bingbing)[ 4 ] ; Peng, QM (Peng, Qiuming)[ 2 ]查看 ResearcherID 和 ORCID

COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS

卷: 538 页: 7-13DOI: 10.1016/j.colsurfa.2017.10.077

出版年: FEB 5 2018

文献类型:Article查看期刊影响力摘要Facile preparation and UV stabilization of electrospun poly(e-caprolactone) (PCL)/2-methyl-3-(trimethoxysilyl) propylester (M8POSS)/pentaerythritol tetrakis(3-mercaptopropionate) (PETM) composite fibers via thiol-ene click reaction were investigated. The morphological studies clearly showed the M8POSS and PETM macromers were excluded from PCL crystalline phase during electrospinning. The cross-linking reaction occurs in the amorphous phase of PCL fibers and possibly the fiber surface. By locking amorphous PCL chains into the crosslinked M8POSS and PETM through thiol-ene click reaction, we are able to fabricate PCL/POSS composite fibers, which can remain structural stability under UVC for longer period of time. The facile fabrication of the composite fibers via thiol-ene click reaction reported here provided valuable insight into not only the surface coating of medical devices but also new biocompatible composite materials.


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