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Amorphous ruthenium nanoparticles for enhanced electrochemical water splitting
Nanotechnology, 2015This paper demonstrates an optimized fabrication of amorphous Ru nanoparticles through annealing at various temperatures ranging from 150 to 700 °C, which are used as water oxidation catalyst for effective electrochemical water splitting under a low overpotential of less than 300 mV.
Dinachali, Saman Safari +8 more
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Electrochemically reactive colloidal nanobubbles by water splitting
Journal of Colloid and Interface ScienceThe existing literature reports have conflicting views on reactive oxygen species (ROS) generation by bulk nanobubbles. Consequently, we propose the hypothesis that (i) ROS may be generated during the process of nanobubble generation through water splitting, and (ii) bulk nanobubbles possess electrochemical reactivity, which could potentially lead to ...
Gaurav Yadav +2 more
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Metallic Nanoclusters for Electrochemical Water Splitting
ChemCatChemAbstractElectrocatalytic water splitting is regarded as one of the most promising strategies for producing clean and sustainable energy sources (H2 and O2) in cathodic hydrogen evolution reaction (HER) and anodic oxygen evolution reaction (OER), respectively.
Xiaodong Shao +3 more
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Surface Engineering of Nanomaterials for Photo‐Electrochemical Water Splitting
Small, 2018AbstractPhoto‐electrochemical water splitting represents a green and environmentally friendly method for producing solar hydrogen. Semiconductor nanomaterials with a highly accessible surface area, reduced charge migration distance, and tunable optical and electronic property are regarded as promising electrode materials to carry out this solar‐to ...
Bin, Yao +4 more
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Water Splitting Using Electrochemical Approach
2016For electrochemical water splitting, a number of bioinspired and biomimetic Mn-based materials have been developed; however, the catalytic performances markedly differ between natural and synthetic Mn catalysts. Based on the recent in situ detection of surface intermediates for the oxygen evolution reaction (OER) by MnO2, this chapter introduces the ...
Akira Yamaguchi +3 more
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(Invited) Decoupling Strategies in Electrochemical Water Splitting
ECS Meeting Abstracts, 2023The storage of renewably-generated energy as hydrogen via the electrolysis of water is a fundamental cornerstone of a sustainable hydrogen economy. Conventional electrolysers usually require stable power inputs in order to operate effectively and safely and so may be unsuited to harnessing renewable power, which is often intermittent and diffuse ...
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Surface and Subsurface Effects in Electrochemical Water Splitting
ECS Meeting Abstracts, 2018We will report on the surface and subsurface electrode processes in aqueous solutions. We are particularly focused on anode and cathode processes in electrochemical water splitting. Well-defined model electrode materials of oxides and noble metal alloys are prepared to investigate structural and mechanistic details of water splitting.
Hadi Tavassol +5 more
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Engineering of abundant metal complexes for electrochemical water splitting
Dalton TransactionsGraphical representation of electrochemical water splitting with Earth-abundant metal complex-based electrocatalysts.
Naseem Kousar +5 more
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Water Splitting by Using Electrochemical Properties of Material
2017The present era of ramping energy demands, its storage considerations coupled with environmental contentions being caused by the perishable conventional resources of energy, has set out a clear tone for the research community all across the globe to impart a motivated effort over it.
Deepak Kumar Tiwari +3 more
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