Compact carbon nitride based copolymer films with controllable thickness for photoelectrochemical water splitting by Gu, Quan, Gong, Xuezhong, Jia, Qiaohui, Liu, Jianni, Gao, Ziwei, Wang, Xuxu, Long, Jinlin, Xue, Can

“…Importantly, this work provides a general guide to solvothermal methods for in situ growing metal-free films on various substrates for efficient PEC water splitting.…”
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Recommended practices and benchmark activity for hydrogen and oxygen electrocatalysis in water splitting and fuel cells by Wei, Chao, Rao, Reshma R., Peng, Jiayu, Huang, Botao, Stephens, Ifan E. L., Risch, Marcel, Xu, Jason Zhichuan, Yang, Shao-Horn

“…Electrochemical energy storage by making H2 an energy carrier from water splitting relies on four elementary reactions, i.e., the hydrogen evolution reaction (HER), hydrogen oxidation reaction (HOR), oxygen evolution reaction (OER), and oxygen reduction reaction (ORR). …”
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Cu- and Fe-codoped Ni porous networks as an active electrocatalyst for hydrogen evolution in alkaline medium by Hegde, Chidanand, Sun, Xiaoli, Dinh, Khang Ngoc, Huang, Aijian, Ren, Hao, Li, Bing, Dangol, Raksha, Liu, Chuntai, Wang, Zhiguo, Yan, Qingyu, Li, Hua

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O2 plasma and cation tuned nickel phosphide nanosheets for highly efficient overall water splitting by Dinh, Khang Ngoc, Sun, Xiaoli, Dai, Zhengfei, Zheng, Yun, Zheng, Penglun, Yang, Jun, Xu, Jianwei, Wang, Zhiguo, Yan, Qingyu

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Phase engineering and surface reconstruction of CrₓMnFeNi high entropy alloys for electrocatalytic water splitting by Wang, Yong, Gong, Na, Niu, Gang, Ge, Junyu, Tan, Xianyi, Zhang, Mingsheng, Liu, Hongfei, Wu, Huibin, Meng, Tzee Luai, Xie, Huiqing, Hippalgaonkar, Kedar, Liu, Zheng, Huang, Yizhong

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Understanding the roles of NiOx in enhancing the photoelectrochemical performance of BiVO4 photoanodes for solar water splitting by Zhang, Mengyuan, Antony, Rajini P., Chiam, Sing Yang, Abdi, Fatwa Firdaus, Wong, Lydia Helena

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Angle-independent solar radiation capture by 3D printed lattice structures for efficient photoelectrochemical water splitting by Hegde, Chidanand, Rosental, Tamar, Tan, Joel Ming Rui, Magdassi, Shlomo, Wong, Lydia Helena

Subjects: “…Photoelectrochemical 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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Harnessing magnetic fields to accelerate oxygen evolution reaction by Li, Xiaoning, Hao, Chongyan, Du, Yumeng, Lu, Yun, Fan, Yameng, Wang, Mingyue, Wang, Nana, Meng, Ruijin, Wang, Xiaolin, Xu, Jason Zhichuan, Cheng, Zhenxiang

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Ultrathin Porous NiFeV Ternary Layer Hydroxide Nanosheets as a Highly Efficient Bifunctional Electrocatalyst for Overall Water Splitting by Dinh, Khang Ngoc, Zheng, Penglun, Dai, Zhengfei, Zhang, Yu, Dangol, Raksha, Zheng, Yun, Li, Bing, Zong, Yun, Yan, Qingyu

Subjects: “…Overall Water Splitting…”
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Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting by Liang, Qinghua, Zhong, Lixiang, Du, Chengfeng, Zheng, Yun, Luo, Yubo, Xu, Jianwei, Li, Shuzhou, Yan, Qingyu

“…More importantly, a water‐splitting electrolyzer constructed using the mosaic CoNiPS3/C nanosheets as both cathode and anode achieves 30 mA cm−2 at 1.62 V, which is better than the initial CoNiPS3/C nanosheets (1.69 V) and is comparable to the discreted nanodots (1.58 V). …”
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Enhanced photoelectrochemical water splitting using carbon cloth functionalized with ZnO nanostructures via polydopamine assisted electroless deposition by Seetoh, Ian P., Ramesh, Akhil K., Tan, Wei Xin, Lai, Chang Quan

“…ZnO nanorods (ZnO-nr) have been widely studied as a promising nanomaterial for photoelectrochemical water splitting. However, almost all prior studies employed planar electrodes. …”
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Sub-10-nm-sized Au@AuxIr1-x metal-core/alloy-shell nanoparticles as highly durable catalysts for acidic water splitting by Wang, Huimin, Chen, Zhe-Ning, Wang, Yuanyuan, Wu, Dongshuang, Cao, Minna, Sun, Fanfei, Cao, Rong

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Emerging chalcogenide thin films for solar energy harvesting devices by Hadke, Shreyash, Huang, Menglin, Chen, Chao, Tay, Ying Fan, Chen, Shiyou, Tang, Jiang, Wong, Lydia Helena

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Surface modification of hematite photoanodes with CeOx cocatalyst for improved photoelectrochemical water oxidation kinetics by Ahmed, Mahmoud Gamal, Zhang, Mengyuan, Tay, Ying Fan, Chiam, Sing Yang, Wong, Lydia Helena

Subjects: “…Photoelectrochemical Water Splitting…”
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Enhancing photoelectrochemical performance of the printed nanoporous FeVO₄ photoanode by dual-layer CoOₓ–CoPi catalysts by Nguyen, Thi Hiep, Ahmed, Mahmoud Gamal, Zhang, Mengyuan, Halevi, Oded, Abdi, Fatwa F., Magdassi, Shlomo, Wong, Lydia Helena

Subjects: “…Photoelectrochemical Water Splitting…”
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Mesoporous titanium oxynitride monoliths from block copolymer-directed self-assembly of metal-urea additives by Li, Yun, Horia, Raymond, Tan, Wei Xin, Larbaram, Nathawat, Sasangka, Wardhana A., Manalastas, William, Jr., Madhavi, Srinivasan, Tan, Kwan Wee

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A review on fundamentals for designing oxygen evolution electrocatalysts by Song, Jiajia, Wei, Chao, Huang, Zhen-Feng, Liu, Chuntai, Zeng, Lin, Wang, Xin, Xu, Zhichuan Jason

“…Electricity-driven water splitting can facilitate the storage of electrical energy in the form of hydrogen gas. …”
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Recent advances in hybrid photocatalysts for solar fuel production by Wong, Lydia Helena, Barber, James, Loo, Say Chye Joachim, Tran, Phong D.

“…Converting solar energy into fuel via photo-assisted water splitting to generate hydrogen or drive CO2 reduction is an attractive scientific and technological goal to address the increasing global demand for energy and to reduce the impact of energy production on climate change. …”
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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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