One-dimensional TiO2 nanotube photocatalysts for solar water splitting by Ge, Mingzheng, Li, Qingsong, Cao, Chunyan, Huang, Jianying, Li, Shuhui, Zhang, Songnan, Chen, Zhong, Zhang, Keqin, Al-Deyab, Salem S., Lai, Yuekun

“…Hydrogen production from water splitting by photo/photoelectron‐catalytic process is a promising route to solve both fossil fuel depletion and environmental pollution at the same time. …”
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Strategies of anode materials design towards improved photoelectrochemical water splitting efficiency by Hu, Jun, Zhao, Shuo, Zhao, Xin, Chen, Zhong

“…Although great achievements have been obtained, the challenges faced in the development of anode materials for solar energy to make water splitting remain significant. In this review, the major challenges to improve the conversion efficiency of photoelectrochemical water splitting reactions are presented. …”
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Enhanced photoelectrochemical water splitting performance using morphology-controlled BiVO4 with W doping by Zhao, Xin, Chen, Zhong

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Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges by Yao, Xin, Wang, Danping, Zhao, Xin, Ma, Susu, Bassi, Prince Saurabh, Yang, Guang, Chen, Wei, Chen, Zhong, Sritharan, Thirumany

“…Understanding the reasons for the areal effect is indispensable for the development of large‐scale PEC devices for water splitting.…”
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Sol-gel synthesis of highly reproducible WO₃ photoanodes for solar water oxidation = 溶胶-凝胶法制备高重复性的WO₃光阳极用于太 阳能水氧化反应 by Feng, Jianyong, Zhao, Xin, Zhang, Bowei, Yang, Guang, Qian, Qinfeng, Ma, Su Su Khine, Chen, Zhong, Li, Zhaosheng, Huang, Yizhong

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Catalytically active sites on Ni5P4 for efficient hydrogen evolution reaction from atomic scale calculation by Hu, Jun, Cao, Xiaofei, Zhao, Xin, Chen, Wei, Lu, Guo-ping, Dan, Yong, Chen, Zhong

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Cu2O Photocathode for Low Bias Photoelectrochemical Water Splitting Enabled by NiFe-Layered Double Hydroxide Co-Catalyst by Qi, Huan, Wolfe, Jonathan, Fichou, Denis, Chen, Zhong

“…This unprecedented use of Cu2O/NiFe-LDH as an efficient photocathode opens new perspectives in view of low biasd or self-biased PEC water splitting under sunlight illumination.…”
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Simultaneous enhancement in charge separation and onset potential for water oxidation in a BiVO4 photoanode by W – Ti codoping by Zhao, Xin, Hu, Jun, Wu, Bo, Banerjee, Amitava, Chakraborty, Sudip, Feng, Jianyong, Zhao, Zongyan, Chen, Shi, Ahuja, Rajeev, Sum, Tze Chien, Chen, Zhong

“…Herein, we take a BiVO4 PEC water splitting cell as an example to demonstrate how to analyze the limiting factor and to formulate the corresponding solutions to improve the hole mobility. …”
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The self-passivation mechanism in degradation of BiVO4 photoanode by Yao, Xin, Zhao, Xin, Hu, Jun, Xie, Huiqing, Wang, Danping, Cao, Xun, Zhang, Zheng, Huang, Yizhong, Chen, Zhong, Sritharan, Thirumany

“…BiVO4 is a promising photoanode material for solar-assisted water splitting in a photoelectrochemical cell but has a propensity to degrade. …”
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New insights into the photocatalytic activity of 3-D core–shell P25@silica nanocomposites : impact of mesoporous coating by Gong, Yichao, Wang, Dan Ping, Wu, Renbing, Gazi, Sarifuddin, Soo, Han Sen, Sritharan, Thirumany, Chen, Zhong

“…The nanocomposites were investigated for photocatalytic reactions of organic dye degradation, water splitting, and CO2 reduction to understand the roles of the mSiO2 shell in these photocatalytic reactions. …”
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Design and construction of a photocatalytic reactor for hydrogen generation by Chen, Zhong.

“…Although the concept of using semiconductors for solar water splitting has been proven beyond doubt, the productivity remains low. …”
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A theoretical study on the surface and interfacial properties of Ni3P for the hydrogen evolution reaction by Hu, Jun, Zheng, Shunli, Zhao, Xin, Yao, Xin, Chen, Zhong

“…This study provides important insights into the surface properties of Ni3P for water splitting and opens up an exciting opportunity to optimize the performance of solar energy conversion devices by synthesizing preferentially exposed catalyst facets.…”
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Design of hierarchical oxide-carbon nanostructures for trifunctional electrocatalytic applications by Devi, Hemam Rachna, Bisen, Omeshwari Yadorao, Cao, Xun, Chen, Zhong, Nanda, Karuna Kar

“…The catalyst displays a low ΔE (EJ(OER) = 10 − E½(ORR)) of 0.846 V for bifunctional OER–ORR and low potential of 1.54 V at 10 mA cm−2 for overall water splitting with appreciable durability for 40 h. …”
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Discovery of hydrogen spillover-based binary electrocatalysts for hydrogen evolution: from theory to experiment by Tan, Yuan, Zhu, Yucheng, Cao, Xaofei, Liu, Yuhao, Li, Jiayuan, Chen, Zhong, Hu, Jun

“…Detailed analysis of these HSBB catalysts reveals the key role of hydrogen spillover toward efficient water splitting, paving the way for the discovery of widely applicable materials and a feedback loop that delivers materials as designed. …”
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Highly efficient visible-light-driven photocatalytic hydrogen evolution by all-solid-state Z-scheme CdS/QDs/ZnIn2S4 architectures with MoS2 quantum dots as solid-state electron med... by Chen, Wei, Yan, Rui-Qiang, Zhu, Jian-Qun, Huang, Guo-Bo, Chen, Zhong

“…The photocatalytic water splitting for hydrogen evolution demonstrated that such structural design can synergistically trigger remarkably improved visible-light-driven photocatalytic activity. …”
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Improved charge separation in WO3/CuWO4 composite photoanodes for photoelectrochemical water oxidation by Wang, Danping, Qi, Huan, Zhao, Xin, Gurudayal, Xu, Rong, Sritharan, Thirumany, Chen, Zhong, Bassi, Prince Saurabh, Wong, Lydia Helena

“…The photocurrent was generated from water splitting as confirmed by hydrogen and oxygen gas evolution, and Faradic efficiency was calculated based on the amount of H2 produced. …”
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Solar-driven hydrogen generation coupled with urea electrolysis by an oxygen vacancy-rich catalyst by Yao, Mengqi, Ge, Junyu, Sun, Baolong, Hu, Jun, Koh, See Wee, Zhao, Yunxing, Fei, Jipeng, Sun, Zixu, Hong, Wei, Chen, Zhong, Hu, Wencheng, Li, Hong

“…Overall water-urea electrolysis only required 1.58 V to deliver 100 mA cm-2, which was 0.33 V less than that in urea-free water splitting, and thus lowered the overall energy consumption by 17.3%. …”
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