Si Ping Liu scite author profile

Si Ping Liu

3Publications

81Citation Statements Received

192Citation Statements Given

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National Central University

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Plasmonically Enhanced Photocatalytic Hydrogen Production from Water: The Critical Role of Tunable Surface Plasmon Resonance from Gold–Silver Nanoshells

Liu

et al. 2016

ACS Appl. Mater. Interfaces

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Gold-silver nanoshells (GS-NSs) having a tunable surface plasmon resonance (SPR) were employed to facilitate charge separation of photoexcited carriers in the photocalytic production of hydrogen from water. Zinc indium sulfide (ZnIn2S4; ZIS), a visible-light-active photocatalyst, where the band gap varies with the [Zn]/[In] ratio, was used as a model ZIS system (E(g) = 2.25 eV) to investigate the mechanisms of plasmonic enhancement associated with the nanoshells. Three types of GS-NS cores with intense absorptions centered roughly at 500, 700, and 900 nm were used as seeds for preparing GS-NS@ZIS core-shell structures via a microwave-assisted hydrothermal reaction, yielding core-shell particles with composite diameters of ∼200 nm. Notably, an interlayer of dielectric silica (SiO2) between the GS-NSs and the ZIS photocatalyst provided another parameter to enhance the production of hydrogen and to distinguish the charge-transfer mechanisms. In particular, the direct transfer of hot electrons from the GS-NSs to the ZIS photocatalyst was blocked by this layer. Of the 10 particle samples examined in this study, the greatest hydrogen gas evolution rate was observed for GS-NSs having a SiO2 interlayer thickness of ∼17 nm and an SPR absorption centered at ∼700 nm, yielding a rate 2.6 times higher than that of the ZIS without GS-NSs. The apparent quantum efficiencies for these core-shell particles were recorded and compared to the absorption spectra. Analyses of the charge-transfer mechanisms were evaluated and are discussed based on the experimental findings.

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Broadening the photoresponsive activity of anatase titanium dioxide particles via decoration with partial gold shells

Khantamat

Liu

et al. 2018

Journal of Colloid and Interface Science

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Tuning the Crystallinity and Coverage of SiO₂–ZnIn₂S₄ Core–Shell Nanoparticles for Efficient Hydrogen Generation

Mishra

Huang

Wang

et al. 2021

ACS Appl. Mater. Interfaces

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The coverage, thickness, and crystallinity of ZnIn 2 S 4 (ZIS) shells on SiO 2 core nanoparticles (SiO 2 @ZIS) were systematically investigated using microwave-assisted solvothermal methods aided by the addition of acid in ethanolic medium. The surface modification of the SiO 2 cores with (3-mercaptopropyl)trimethoxysilane was found to be critical to generate a homogeneous coverage of ZnIn 2 S 4 . The SiO 2 @ZIS core−shell nanoparticles exhibited the best coverage but poor crystallinity when synthesized in pure ethanol, whereas best crystallinity but poor coverage was observed when synthesized in an aqueous solution. The addition of selected amounts of acid (HCl) led to improved crystallinity in the ethanolic medium. The thickness of the ZIS shell could be controlled in an ethanolic solution by judiciously varying the amounts of acid and the concentration of the ZIS precursor. Increasing the concentration of the ZIS precursor to twice the standard concentration in ethanolic solution with the addition of 100 μL of HCl afforded better crystallinity, homogeneous coverage, and optimal photocatalytic hydrogen production.

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Si Ping Liu

Plasmonically Enhanced Photocatalytic Hydrogen Production from Water: The Critical Role of Tunable Surface Plasmon Resonance from Gold–Silver Nanoshells

Broadening the photoresponsive activity of anatase titanium dioxide particles via decoration with partial gold shells

Tuning the Crystallinity and Coverage of SiO₂–ZnIn₂S₄ Core–Shell Nanoparticles for Efficient Hydrogen Generation

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Si Ping Liu

Plasmonically Enhanced Photocatalytic Hydrogen Production from Water: The Critical Role of Tunable Surface Plasmon Resonance from Gold–Silver Nanoshells

Broadening the photoresponsive activity of anatase titanium dioxide particles via decoration with partial gold shells

Tuning the Crystallinity and Coverage of SiO2–ZnIn2S4 Core–Shell Nanoparticles for Efficient Hydrogen Generation

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Tuning the Crystallinity and Coverage of SiO₂–ZnIn₂S₄ Core–Shell Nanoparticles for Efficient Hydrogen Generation