J
Jing Zhang
Researcher at Sichuan University
Publications - 221
Citations - 3404
Jing Zhang is an academic researcher from Sichuan University. The author has contributed to research in topics: Plasmon & Silicon photonics. The author has an hindex of 26, co-authored 191 publications receiving 2371 citations. Previous affiliations of Jing Zhang include Nanyang Technological University & Agency for Science, Technology and Research.
Papers
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A novel fluorene-based aggregation-induced emission (AIE)-active gold(i) complex with crystallization-induced emission enhancement (CIEE) and reversible mechanochromism characteristics.
TL;DR: A new fluorene-based AIE-active gold(i) complex was designed and synthesized that exhibits a crystallization-induced emission enhancement (CIEE) effect and reversible mechanochromic behavior with fluorescence changes between green and yellow emissions.
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Highly near-IR emissive ytterbium(iii) complexes with unprecedented quantum yields.
TL;DR: In this article, a series of highly NIR emissive Yb complexes are reported, in which the Yb is sandwiched between an octafluorinated porphyrinate antenna ligand and a deuterated Klaui ligand, and one of the complexes had an unprecedented quantum yield of 63% (estimated uncertainty 15%) in CD2Cl2 with a long lifetime of 714 μs.
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Direct probing of atomically dispersed Ru species over multi-edged TiO2 for highly efficient photocatalytic hydrogen evolution
TL;DR: Experimental results not only demonstrate that the photogenerated electrons can be effectively transferred to the isolated Ru atoms for hydrogen evolution but also imply that the TiO2 architecture with multi-edges might facilitate the charge separation and transport.
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High-performance, flexible, and ultralong crystalline thermoelectric fibers
TL;DR: In this paper, the authors fabricate thermoelectric micro/nanowires by thermally drawing hermetically sealed high-quality inorganic materials in a flexible fiber-like substrate.
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Enhanced performance of in-plane transition metal dichalcogenides monolayers by configuring local atomic structures.
Yao Zhou,Jing Zhang,Erhong Song,Junhao Lin,Jiadong Zhou,Kazu Suenaga,Wu Zhou,Zheng Liu,Jianjun Liu,Jun Lou,Hong Jin Fan +10 more
TL;DR: Light is shed on deeper understanding of atomic-scale local configuration in TMDs and a methodology to boost the intrinsic activity of chalcogen atoms and combine the theoretical screening and experimental realization to achieve highly active local configurations.