Qin Honglin scite author profile

Qin Honglin

2Publications

4Citation Statements Received

24Citation Statements Given

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Fuzhou University, Anhui University

Publications

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Semiconductor Photocatalysts for Solar-to-Hydrogen Energy Conversion: Recent Advances of CdS

Wei

Honglin

Jinxin

et al. 2021

CAC

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Introduction: Solar-driven photocatalytic hydrogen production from water splitting is one of the most promising solutions to satisfy the increasing demands of a rapidly developing society. CdS has emerged as a representative semiconductor photocatalyst due to its suitable band gap and band position. However, the poor stability and rapid charge recombination of CdS restrict its application for hydrogen production. The strategy of using a cocatalyst is typically recognized as an effective approach for improving the activity, stability, and selectivity of photocatalysts. In this review, recent developments in CdS cocatalysts for hydrogen production from water splitting under visible-light irradiation are summarized. In particular, the factors affecting the photocatalytic performance and new cocatalyst design, as well as the general classification of cocatalysts, are discussed, which includes a single cocatalyst containing noble-metal cocatalysts, non-noble metals, metal-complex cocatalysts, metal-free cocatalysts, and multi-cocatalysts. Finally, future opportunities and challenges with respect to the optimization and theoretical design of cocatalysts toward the CdS photocatalytic hydrogen evolution are described. Background: Photocatalytic hydrogen evolution from water splitting using photocatalyst semiconductors is one of the most promising solutions to satisfy the increasing demands of a rapidly developing society. CdS has emerged as a representative semiconductor photocatalyst due to its suitable band gap and band position. However, the poor stability and rapid charge recombination of CdS restrict its application for hydrogen production. The strategy of using a cocatalyst is typically recognized as an effective approach for improving the activity, stability, and selectivity of photocatalysts. Methods: This review summarizes the recent developments in CdS cocatalysts for hydrogen production from water splitting under visible-light irradiation. Results: Recent developments in CdS cocatalysts for hydrogen production from water splitting under visible-light irradiation are summarized. The factors affecting the photocatalytic performance and new cocatalyst design, as well as the general classification of cocatalysts, are discussed, which includes a single cocatalyst containing noble-metal cocatalysts, non-noble metals, metal-complex cocatalysts, metal-free cocatalysts, and multi-cocatalysts. Finally, future opportunities and challenges with respect to the optimization and theoretical design of cocatalysts toward the CdS photocatalytic hydrogen evolution are described. Conclusion: The state-of-the-art CdS for producing hydrogen from photocatalytic water splitting under visible light is discussed. The future opportunities and challenges with respect to the optimization and theoretical design of cocatalysts toward the CdS photocatalytic hydrogen evolution are also described.

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Research on mechanical properties of metal entangled structure‐silicone rubber composite vibration damping materials

et al. 2023

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Metal entangled structure is a porous metal damping material wound by spiral springs and formed by cold stamping. Its interior consists of interlocking and interlocking spiral springs. To further make the metal entangled structure have the characteristics of high stiffness and high damping at the same time, a high‐performance metal entangled structure‐silicone rubber composite damping material was designed. The viscoelastic properties, mechanical stability, deformation behavior, and damage mechanism of metal entangled structure‐silicone rubber composite were investigated by relaxation test, cyclic loading test, different loading rate test, and damage test, respectively. The effects of different preparation process parameters and loading conditions on the static mechanical properties of metal entangled structure‐silicone rubber composite were investigated. The experimental results show that metal entangled structure‐silicone rubber composite has good mechanical stability, insignificant viscoelasticity, and also variable damping and variable stiffness properties, and the load carrying capacity is substantially increased while maintaining good damping properties.

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Qin Honglin

Semiconductor Photocatalysts for Solar-to-Hydrogen Energy Conversion: Recent Advances of CdS

Research on mechanical properties of metal entangled structure‐silicone rubber composite vibration damping materials

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