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W4386726008 abstract "Abstract Hydrazine oxidation reaction (HzOR) assisted hydrogen evolution reaction (HER) offers a feasible path for low power consumption to hydrogen production. Unfortunately however, the total electrooxidation of hydrazine in anode and the dissociation kinetics of water in cathode are critically depend on the interaction between the reaction intermediates and surface of catalysts, which are still challenging due to the totally different catalytic mechanisms. Herein, the [W–O] group with strong adsorption capacity is introduced into CoP nanoflakes to fabricate bifunctional catalyst, which possesses excellent catalytic performances towards both HER (185.60 mV at 1000 mA cm −2 ) and HzOR (78.99 mV at 10,00 mA cm −2 ) with the overall electrolyzer potential of 1.634 V lower than that of the water splitting system at 100 mA cm −2 . The introduction of [W–O] groups, working as the adsorption sites for H 2 O dissociation and N 2 H 4 dehydrogenation, leads to the formation of porous structure on CoP nanoflakes and regulates the electronic structure of Co through the linked O in [W–O] group as well, resultantly boosting the hydrogen production and HzOR. Moreover, a proof-of-concept direct hydrazine fuel cell-powered H 2 production system has been assembled, realizing H 2 evolution at a rate of 3.53 mmol cm −2 h −1 at room temperature without external electricity supply." @default.
W4386726008 created "2023-09-15" @default.
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W4386726008 date "2023-09-14" @default.
W4386726008 modified "2023-10-15" @default.
W4386726008 title "Adsorption Site Regulations of [W–O]-Doped CoP Boosting the Hydrazine Oxidation-Coupled Hydrogen Evolution at Elevated Current Density" @default.
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W4386726008 doi "https://doi.org/10.1007/s40820-023-01185-4" @default.
W4386726008 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37707720" @default.
W4386726008 hasPublicationYear "2023" @default.
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