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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Promoting the Outgrowth of Neurites on Electrospun Microfibers by Functionalization with Electrosprayed Microparticles of Fatty Acids.
TL;DR: This work uses electrospray to easily functionalize the surface of a substrate with microparticles of natural fatty acids at a controllable density and demonstrates that the substrates can guide and enhance directional outgrowth of neurites from both PC12 multicellular spheroids and chick embryonic dorsal root ganglia bodies.
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Electrospun Fiber Mesh for High-Resolution Measurements of Oxygen Tension in Cranial Bone Defect Repair
Kevin Schilling,Mirna El Khatib,Shane Plunkett,Jiajia Xue,Younan Xia,Sergei A. Vinogradov,Edward B. Brown,Xinping Zhang +7 more
TL;DR: The oxygen reporting fibers provide a useful tool for minimally invasive, high-resolution, real-time 3D mapping of tissue oxygenation during bone defect healing, facilitating studies aimed at understanding the healing process and advancing design of tissue engineered constructs for enhanced bone repair and regeneration.
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Degradable one-dimensional dextran-iron oxide nanohybrids for MRI-guided synergistic gene/photothermal/magnetolytic therapy
TL;DR: The multifunctional 1D FDP nanoplatform with pH-responsive degradability provides a promising candidate to realize enhanced gene/photothermal/magnetolytic therapy in vitro and in vivo.
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Electrospun Nanofiber-Based Patches for the Delivery of Cardiac Progenitor Cells.
TL;DR: Electrospun nanofiber-based patches are a suitable delivery vehicle for CPCs and can confer reparative benefit through anti-fibrotic and pro-angiogenic paracrine signaling.
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Design and synthesis of non-crystallizable, low-Tg polysiloxane elastomers with functional epoxy groups through anionic copolymerization and subsequent epoxidation
TL;DR: In this article, a low-Tg epoxidized polysiloxane (ESR) with functional epoxy groups in side chains was designed and synthesized though two steps.