Results 1 to 10 of about 15,323 (159)
Electrochemical water splitting by a bidirectional electrocatalyst [PDF]
STAR Protocols, 2023 Summary: The presence of efficient energy storage and conversion technologies is essential for the future energy infrastructure. Here, we describe crafting a heterostructure composed of a suitably interlinked CeO2 and polycrystalline Bi2O3 dopant ...
S.K. Tarik Aziz +12 more
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Designing MOF Nanoarchitectures for Electrochemical Water Splitting. [PDF]
Adv Mater, 2021 AbstractElectrochemical water splitting has attracted significant attention as a key pathway for the development of renewable energy systems. Fabricating efficient electrocatalysts for these processes is intensely desired to reduce their overpotentials and facilitate practical applications.
Zhang B +9 more
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Free-base porphyrin polymer for bifunctional electrochemical water splitting. [PDF]
Chem Sci, 2022 Water splitting is considered a promising approach for renewable and sustainable energy conversion.
Ge Y +3 more
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Strategies for Developing Transition Metal Phosphides in Electrochemical Water Splitting [PDF]
Frontiers in Chemistry, 2021 Electrochemical water splitting involving hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) is a greatly promising technology to generate sustainable and renewable energy resources, which relies on the exploration regarding the design
Jie Ying, Huan Wang
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Continuous electrochemical water splitting from natural water sources via forward osmosis. [PDF]
Proc Natl Acad Sci U S A, 2021 Significance The growing need for the widespread adoption of renewable energy necessitates scalable energy storage. A potential route to meeting this challenge is electrochemical water splitting driven by renewable energy that will require, at scale, abundant and accessible sources of water.
Veroneau SS, Nocera DG.
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Photocorrosion of ZnO Single Crystals during Electrochemical Water Splitting. [PDF]
ACS Appl Mater Interfaces, 2020 Degradation and dissolution of transparent semiconducting oxides is central to various areas, including design of catalysts and catalysis conditions, as well as passivation of metal surfaces. In particular, photocorrosion can be significant and plays a central role during photoelectrochemical activity of transparent semiconducting oxides.
Dworschak D, Brunnhofer C, Valtiner M.
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The Restructuring-Induced CoOx Catalyst for Electrochemical Water Splitting [PDF]
JACS Au, 2021 Maoyu Wang +11 more
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Materials Research Letters, 2022 Electrochemical water splitting is one of the most efficient strategies to generate clean energy H2. Herein, a novel hollow Co3S4/CuS@CoNi-LDH nanocomposite was designed.
Ge Li +9 more
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Recent progress on precious metal single atom materials for water splitting catalysis
SusMat, 2021 Electrochemical water splitting for hydrogen production has sparked intensive interests because it provides a new approach for sustainable energy resources and the avoidance of environmental problems.
Lei Zhou, Shi‐Yu Lu, Shaojun Guo
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Water Splitting: From Electrode to Green Energy System
Nano-Micro Letters, 2020 Hydrogen (H2) production is a latent feasibility of renewable clean energy. The industrial H2 production is obtained from reforming of natural gas, which consumes a large amount of nonrenewable energy and simultaneously produces greenhouse gas carbon ...
Xiao Li +6 more
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