Z
Zhenglong Zhang
Researcher at Shaanxi Normal University
Publications - 119
Citations - 3038
Zhenglong Zhang is an academic researcher from Shaanxi Normal University. The author has contributed to research in topics: Plasmon & Raman spectroscopy. The author has an hindex of 27, co-authored 89 publications receiving 2442 citations. Previous affiliations of Zhenglong Zhang include Leibniz Institute of Photonic Technology & University of Jena.
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In-situ plasmon-driven chemical reactions revealed by high vacuum tip-enhanced Raman spectroscopy
TL;DR: This work used its innovatively designed home-built high vacuum TERS (HV-TERS) to investigate the plasmon-driven in-situ chemical reaction of 4-nitrobenzenethiol dimerizing to dimercaptoazobenzene and offers a new way to design a highly efficient HV- TERS system and its applications to chemical catalysis and synthesis of molecules.
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Nanowire-supported plasmonic waveguide for remote excitation of surface-enhanced Raman scattering
Yingzhou Huang,Yingzhou Huang,Yurui Fang,Zhenglong Zhang,Zhenglong Zhang,Ling Zhu,Mengtao Sun,Mengtao Sun +7 more
TL;DR: In this article, a novel surface-enhanced Raman scattering (SERS) technology called remote SERS has been reported, combining both localized surface plasmon polaritons and propagating surface Plasmon Polaritons (PSPPs), which may be found in prominent applications in special circumstances compared to traditional local SERS.
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Remotely excited Raman optical activity using chiral plasmon propagation in Ag nanowires
TL;DR: Sun et al. as discussed by the authors investigated remotely excited Raman optical activity (ROA) using propagating surface plasmons in chiral Ag nanowires and found that the Raman intensity can be excited by left and right-circularly polarized lights and that the circular intensity difference (CID) can be significantly enhanced.
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Plasmon-Driven Catalysis on Molecules and Nanomaterials.
TL;DR: Surface plasmons can not only catalyze chemical reactions of molecules but also induce crystal growth and transformation of nanomaterials, a new development in plasmonic catalysis, which reveals a more powerful aspect of the catalysis effect.
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Recent Progress on Plasmon-Enhanced Fluorescence
TL;DR: A review of recent advanced reports on plasmon-enhanced fluorescence (PEF) can be found in this article, where the authors provide an introduction to PEF, illustrates the current progress in the design of metallic nanostructures for efficient fluorescence signal amplification that utilises propagating and localised surface plasmons.