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Younan Xia
Researcher at The Wallace H. Coulter Department of Biomedical Engineering
Publications - 974
Citations - 192658
Younan Xia is an academic researcher from The Wallace H. Coulter Department of Biomedical Engineering. The author has contributed to research in topics: Nanocages & Catalysis. The author has an hindex of 216, co-authored 943 publications receiving 175757 citations. Previous affiliations of Younan Xia include Washington University in St. Louis & University of Texas at Dallas.
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Template-engaged synthesis of RuSe2 and Pd17Se15 nanotubes by reacting precursor salts with selenium nanowires
TL;DR: In this paper, a template-engaged approach was proposed to synthesize trigonal selenium nanowires with Ru(acac) 3 and PdCl 2 to generate RuSe 2 and pd 17 Se 15 on the surface of each t -Se nanowire as a uniform conformal sheath.
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Promoting Cell Migration and Neurite Extension along Uniaxially Aligned Nanofibers with Biomacromolecular Particles in a Density Gradient
TL;DR: The scaffolds featuring a combination of uniaxially aligned nanofibers and biomacromolecular particles in density gradient can be applied to a range of biological studies and biomedical applications.
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Photothermal Welding, Melting, and Patterned Expansion of Nonwoven Mats of Polymer Nanofibers for Biomedical and Printing Applications
TL;DR: A simple method by introducing a near-infrared dye such as indocyanine green (ICG) into the nanofibers is reported, which can be applied to different combinations of polymers and dyes, as long as they can be co-dissolved in a suitable solvent for electrospinning.
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General Method for Generating Circular Gradients of Active Proteins on Nanofiber Scaffolds Sought for Wound Closure and Related Applications.
TL;DR: A general method for generating circular gradients of active proteins on scaffolds composed of radially aligned nanofibers that can be readily extended to different types of scaffolds to suit wound closure and related applications that involve cell migration and/or neurite extension in a radial fashion.
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A SERS study of the molecular structure of alkanethiol monolayers on Ag nanocubes in the presence of aqueous glucose.
TL;DR: Analysis of the trans and gauche bands as well as the C-H stretching modes of the SAMs suggest that the analyte-SAM interactions were superficial and there was no penetration for the glucose molecules into the monolayers.