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(Invited) Thermally-Enhanced Photo-Electrochemical Water Splitting
ECS Meeting Abstracts, 2016Transition-metal-oxide semiconductors are promising photoanodes for solar water splitting due to their excellent chemical stability and appropriate bandgaps. However, in absorbers such as BiVO4, TiO2, α-Fe2O3, and WO3, charge carriers localize as small polarons or become trapped, leading to low minority carrier mobilities.
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Electrochemical Water Splitting Coupled with Solar Cells
2016The simplest method for solar to chemical energy conversion is water splitting using electrochemical cells operated by solar cells. Both two devices have been established and well-studied, however, their coupling is difficult due to the variability of the solar radiation.
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Electrochemical Water Splitting: H2 Evolution Reaction
2022Shrish Nath Upadhyay, Srimanta Pakhira
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MOF-based/derived catalysts for electrochemical overall water splitting
Journal of Colloid and Interface ScienceWater-splitting electrocatalysis has gained increasing attention as a promising strategy for developing renewable energy in recent years, but its high overpotential caused by the unfavorable thermodynamics has limited its widespread implementation. Therefore, there is an urgent need to design catalytic materials with outstanding activity and stability ...
Yujia, He, Wei, Liu, Jingquan, Liu
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Electrochemical techniques for photoelectrochemical water splitting
2021Rishika Chakraborty, Mukul Pradhan
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Metal–Organic Frameworks as Photocatalysts for Solar-Driven Overall Water Splitting
Chemical Reviews, 2023Amarajothi Dhakshinamoorthy +1 more
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Materials for Photo-Electrochemical Water Splitting
Reviews in Advanced Sciences and Engineering, 2013L. Meda, L. Abbondanza
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