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Wood aerogel-derived sandwich-like layered nanoelectrodes for alkaline overall seawater electrosplitting

[Display omitted] •A sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel was fabricated.•The resultant sample exhibits impressive bifunctional activities of OER and HER.•The aligned microchannels contribute to electrolyte permeation and bubble release.•The two-electrode electrolyzer provides 500 mA c...

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Published in:	Applied catalysis. B, Environmental Environmental, 2021-09, Vol.293, p.120215, Article 120215
Main Authors:	Chen, Hongjiao, Zou, Yihui, Li, Jian, Zhang, Kewei, Xia, Yanzhi, Hui, Bin, Yang, Dongjiang
Format:	Article
Language:	English
Subjects:	Aerogels Catalysts Channeled structure Chemical analysis Clean energy Electrocatalysts Electrolysis Fabrication Freshwater resources Hydrogen evolution reactions Hydrogen production Interfacial contact Microchannels Molybdenum Nickel Overall seawater splitting Oxygen evolution reactions Seawater Water analysis Wetting Wood aerogel
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description	[Display omitted] •A sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel was fabricated.•The resultant sample exhibits impressive bifunctional activities of OER and HER.•The aligned microchannels contribute to electrolyte permeation and bubble release.•The two-electrode electrolyzer provides 500 mA cm−2 at a low voltage of 1.861 V. Facile and controllable fabrication of eminently active and durable bifunctional catalysts for seawater electrolysis is significant for hydrogen production due to the shortage of freshwater resources. However, its implementation remains as a major challenge since the anodic reaction is sluggish. Here, we designed an artificial sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel electrocatalyst for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). The sample required low overpotentials of 297 mV for OER and 258 mV for HER to achieve 500 mA cm−2 in alkaline seawater. The features of the 3D wood aerogel, including open and well-aligned microchannels, large specific surface area, and good wetting ability, endow the as-synthesized electrocatalysts with impresive OER and HER activities. The two-electrode electrolyzer provides 500 mA cm−2 at 1.861 V for overall seawater electrolysis. This work opens new avenues for developing effective and robust OER/HER catalysts for seawater electrolysis, which significantly advances clean energy systems research.
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Facile and controllable fabrication of eminently active and durable bifunctional catalysts for seawater electrolysis is significant for hydrogen production due to the shortage of freshwater resources. However, its implementation remains as a major challenge since the anodic reaction is sluggish. Here, we designed an artificial sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel electrocatalyst for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). The sample required low overpotentials of 297 mV for OER and 258 mV for HER to achieve 500 mA cm−2 in alkaline seawater. The features of the 3D wood aerogel, including open and well-aligned microchannels, large specific surface area, and good wetting ability, endow the as-synthesized electrocatalysts with impresive OER and HER activities. The two-electrode electrolyzer provides 500 mA cm−2 at 1.861 V for overall seawater electrolysis. This work opens new avenues for developing effective and robust OER/HER catalysts for seawater electrolysis, which significantly advances clean energy systems research.</description><identifier>ISSN: 0926-3373</identifier><identifier>EISSN: 1873-3883</identifier><identifier>DOI: 10.1016/j.apcatb.2021.120215</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Aerogels ; Catalysts ; Channeled structure ; Chemical analysis ; Clean energy ; Electrocatalysts ; Electrolysis ; Fabrication ; Freshwater resources ; Hydrogen evolution reactions ; Hydrogen production ; Interfacial contact ; Microchannels ; Molybdenum ; Nickel ; Overall seawater splitting ; Oxygen evolution reactions ; Seawater ; Water analysis ; Wetting ; Wood aerogel</subject><ispartof>Applied catalysis. 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B, Environmental</title><description>[Display omitted] •A sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel was fabricated.•The resultant sample exhibits impressive bifunctional activities of OER and HER.•The aligned microchannels contribute to electrolyte permeation and bubble release.•The two-electrode electrolyzer provides 500 mA cm−2 at a low voltage of 1.861 V. Facile and controllable fabrication of eminently active and durable bifunctional catalysts for seawater electrolysis is significant for hydrogen production due to the shortage of freshwater resources. However, its implementation remains as a major challenge since the anodic reaction is sluggish. Here, we designed an artificial sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel electrocatalyst for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). The sample required low overpotentials of 297 mV for OER and 258 mV for HER to achieve 500 mA cm−2 in alkaline seawater. The features of the 3D wood aerogel, including open and well-aligned microchannels, large specific surface area, and good wetting ability, endow the as-synthesized electrocatalysts with impresive OER and HER activities. The two-electrode electrolyzer provides 500 mA cm−2 at 1.861 V for overall seawater electrolysis. 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Here, we designed an artificial sandwich-like S,P-(Ni,Mo,Fe)OOH/NiMoP/wood aerogel electrocatalyst for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). The sample required low overpotentials of 297 mV for OER and 258 mV for HER to achieve 500 mA cm−2 in alkaline seawater. The features of the 3D wood aerogel, including open and well-aligned microchannels, large specific surface area, and good wetting ability, endow the as-synthesized electrocatalysts with impresive OER and HER activities. The two-electrode electrolyzer provides 500 mA cm−2 at 1.861 V for overall seawater electrolysis. 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subjects	Aerogels Catalysts Channeled structure Chemical analysis Clean energy Electrocatalysts Electrolysis Fabrication Freshwater resources Hydrogen evolution reactions Hydrogen production Interfacial contact Microchannels Molybdenum Nickel Overall seawater splitting Oxygen evolution reactions Seawater Water analysis Wetting Wood aerogel
title	Wood aerogel-derived sandwich-like layered nanoelectrodes for alkaline overall seawater electrosplitting
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