Jing Chang scite author profile

Jing Chang

5Publications

183Citation Statements Received

91Citation Statements Given

How they've been cited

287

175

How they cite others

235

Affiliations

Tianjin Chengjian University, National Yang Ming Chiao Tung University, Harbin Institute of Technology

Publications

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Fabrication and luminescent properties of core-shell InGaN/GaN multiple quantum wells on GaN nanopillars

Chang

et al. 2012

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Core-shell InGaN/GaN multiple quantum wells (MQWs) on GaN nanopillars were fabricated by top-down etching followed by epitaxial regrowth. The regrowth formed hexagonal sidewalls and pyramids on the nanopillars. The cathodoluminescence of MQWs blue shifts as the location moves from top to bottom on both the pillar sidewalls and pyramid facets, covering a spectral linewidth of about 100 nm. The MQWs on the pillar sidewalls have a higher InN fraction than those on the pyramid facets. The photoluminescent wavelength is stable over two orders of carrier density change due to the smaller quantum confined Stark effect on the nanopillar facets.

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Oxidation of microcystin-LR in water by ozone combined with UV radiation: The removal and degradation pathway

Chang

Chen

Wang

et al. 2015

Chemical Engineering Journal

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Ozonation degradation of microcystin-LR in aqueous solution: Intermediates, byproducts and pathways

et al. 2014

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Quasi-static and dynamic compression behavior of glass cenospheres/5A03 syntactic foam and its sandwich structure

Zhang

Lin

Chi

et al. 2018

Composite Structures

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Spontaneously Micropatterned Silk/Gelatin Scaffolds with Topographical, Biological, and Electrical Stimuli for Neuronal Regulation

Lin

Chang

Yung

et al. 2020

ACS Biomater. Sci. Eng.

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Effective integration of stimulation and direction in bionic scaffolds by materials and microstructure design has been the focus in the advancement of nerve regeneration. Hydrogels are the most promising biomimicked materials used in developing nerve grafts, but the highly hydrated networks limit the fabrication of hydrogel materials into complex biomedical devices. Herein, facile lithography-free and spontaneously micropatterned techniques were used to fabricate a smart protein hydrogel-based scaffold, which carried topographical, electrical, and chemical induction for neural regulation. The synthesized tissue-mimicked silk-gelatin (SG)/polylactic acid bilayer system can self-form three-dimensional ordered corrugation micropatterns with well-defined dimensions (wavelength, λ) based on the stress-induced topography. Through magnetically and topographically guided deposition of the synthesized nerve growth factor-incorporated Fe3O4–graphene nanoparticles (GFPNs), a biologically and electrically conductive cell passage with one-dimensional directionality was constructed to allow for a controllable constrained geometric effect on neuronal adhesion, differentiation, and neurite orientation. Particularly, the SG with corrugation patterns of λ ≈ 30 μm resulted in the optimal cell adhesion and differentiation in response to the pattern guidance. Furthermore, the additional electrical stimulation applied on GFPN-deposited SG resulted in a 1.5-fold increase in the neurite elongation by day 7, finally leading to the neuronal connection by day 21. Such a hydrogel device with synergistic effects of physical and chemical enhancement on neuronal activity provides an expectable opportunity in the development of next-generation nerve conduits.

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Jing Chang

Fabrication and luminescent properties of core-shell InGaN/GaN multiple quantum wells on GaN nanopillars

Oxidation of microcystin-LR in water by ozone combined with UV radiation: The removal and degradation pathway

Ozonation degradation of microcystin-LR in aqueous solution: Intermediates, byproducts and pathways

Quasi-static and dynamic compression behavior of glass cenospheres/5A03 syntactic foam and its sandwich structure

Spontaneously Micropatterned Silk/Gelatin Scaffolds with Topographical, Biological, and Electrical Stimuli for Neuronal Regulation

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