J
Jiajia Xue
Researcher at Beijing University of Chemical Technology
Publications - 80
Citations - 5830
Jiajia Xue is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Nanofiber & Medicine. The author has an hindex of 22, co-authored 57 publications receiving 3220 citations. Previous affiliations of Jiajia Xue include Georgia Institute of Technology & The Wallace H. Coulter Department of Biomedical Engineering.
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Journal ArticleDOI
Maneuvering the Migration and Differentiation of Stem Cells with Electrospun Nanofibers
TL;DR: This work reviews recent progress in applying electrospun nanofibers to direct the migration of stem cells and control their differentiation into specific phenotypes and offers perspectives on the challenges and future opportunities.
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Synthesis of fully bio-based polyamides with tunable properties by employing itaconic acid
Zhao Wang,Tao Wei,Xiao Xue,Miaomiao He,Jiajia Xue,Meng Song,Sizhu Wu,Hailan Kang,Liqun Zhang,Qing-Xiu Jia +9 more
TL;DR: A class of bio-based aliphatic polyamides (BDIS) was synthesized by melting copolycondensation from four biomass monomers: originated (SA), itaconic acid (IA), 1, 10-decanediamine (DD), and 1, 4-butanediamines (BD).
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Synthesis and characterization of biobased isosorbide-containing copolyesters as shape memory polymers for biomedical applications
Hailan Kang,Hailan Kang,Manqiang Li,Zhenghai Tang,Jiajia Xue,Xiaoran Hu,Liqun Zhang,Baochun Guo +7 more
TL;DR: All the PBISI-based SMPs were essentially noncytotoxic, making them suitable for fabricating biomedical devices, and the crosslinked copolyester is demonstrated to be a promising shape memory polymer (SMP) with excellent shape memory properties.
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Structure, physical properties, biocompatibility and in vitro/vivo degradation behavior of anti-infective polycaprolactone-based electrospun membranes for guided tissue/bone regeneration
TL;DR: A comprehensive understanding of the influence of different compositions on the structure and performance of the membranes was enabled, thereby supporting the design of membranes with superior overall performance for GTR/GBR application.
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Performance enhancement of rubber composites using VOC-Free interfacial silica coupling agent
TL;DR: In this paper, a bis-epoxypropyl polysulfide (BEP) was designed and synthesized for nano-silica modification to cause an interfacial interaction between nano-sica and the rubber matrix and avoid VOC emission.