Layered trichalcogenidophosphate : a new catalyst family for water splitting by Du, Cheng-Feng, Liang, Qinghua, Dangol, Raksha, Zhao, Jin, Ren, Hao, Madhavi, Srinivasan, Yan, Qingyu

“…In this regard, hydrogen production through photo- or electrocatalytic water splitting has continued to gain ever-growing interest. …”
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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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Interfacing epitaxial dinickel phosphide to 2D nickel thiophosphate nanosheets for boosting electrocatalytic water splitting by Liang, Qinghua, Zhong, Lixiang, Du, Chengfeng, Luo, Yubo, Zhao, Jin, Zheng, Yun, Xu, Jianwei, Ma, Jianmin, Liu, Chuntai, Li, Shuzhou, Yan, Qingyu

“…Notably, the resultant NiPS3/Ni2P heterostructures enable an overall water splitting electrolyzer to achieve 50 mA cm–2 at a lower bias of 1.65 V compared to that for the pristine NiPS3 alone (2.02 V) and even the benchmark Pt/C//IrO2 electrocatalysts (1.69 V).…”
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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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Self‐assemble and in situ formation of Ni1 − xFexPS3 nanomosaic‐decorated MXene hybrids for overall water splitting by Du, Cheng-Feng, Dinh, Khang Ngoc, Liang, Qinghua, Zheng, Yun, Luo, Yubo, Zhang, Jianli, Yan, Qingyu

“…When integrated for overall water splitting, the Ni0.7Fe0.3PS3@MXene || Ni0.9Fe0.1PS3@MXene couple shows a low onset potential of 1.42 V and needs only 1.65 V to reach a current density of 10 mA cm−2, which is better than the all noble metal IrO2 || Pt/C electrocatalyst (1.71 mV@10 mA cm−2). …”
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Surface modified MXene‐based nanocomposites for electrochemical energy conversion and storage by Yu, Hong, Wang, Yonghui, Jing, Yao, Ma, Jianmin, Du, Cheng-Feng, Yan, Qingyu

“…Finally, the application of these surface modified nanocomposites for supercapacitors (SCs), lithium/sodium–ion batteries (LIBs/SIBs), and electrocatalytic water splitting is discussed. The challenges and prospects of MXene‐based nanocomposites for future ECS applications are also presented.…”
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Highly efficient and stable hydrogen production in all pH range by two-dimensional structured metal-doped tungsten semicarbides by Ang, Edison Huixiang, Dinh, Khang Ngoc, Sun, Xiaoli, Huang, Ying, Yang, Jun, Dong, Zhili, Dong, Xiaochen, Huang, Wei, Wang, Zhiguo, Zhang, Hua, Yan, Qingyu

“…This realization of highly tolerant metal semicarbide catalyst performing on par with commercial Pt/C in all range of pH offers a key step towards industrially electrochemical water splitting.…”
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Vanadium-based metal-organic frameworks and their derivatives for electrochemical energy conversion and storage by Zhu, Jing, Chen, Xiaoyu, Thang, Ai Qin, Li, Fei-Long, Chen, Dong, Geng, Hongbo, Rui, Xianhong, Yan, Qingyu

“…This review summarizes the research progress of V-MOFs (inclusive of pristine V-MOFs, V/M-MOFs and POV-based MOFs) and their derivatives (vanadium oxides, carboncoated vanadium oxide, vanadium phosphate, vanadate, and other vanadium doped nanomaterials) in electrochemical energy conversion (water splitting, oxygen reduction reaction) and energy storage (supercapacitor, rechargeable battery). …”
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