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W4226305309 abstract "Reasonable design and synthesis of hetero atom metal coordination compounds on the atomic scale can significantly improve the performance of the catalysts. Herein, Pt/C (20%) is doped and inserted into the CoSSeNi catalyst through two steps of hydrothermal reaction and high temperature calcination process. Compared with the single metal Pt/C doped CoSSe–Pt/C, the bimetal doped CoSSeNi–Pt/C can greatly enhance the hydrogen evolution reaction (HER) activity. The optimized Pt content in CoSSeNi–Pt/C is 2.25 wt%, which achieves the optimal HER and OER activity. The OER and HER overpotentials of CoSSeNi–Pt/C-0.3 nanosheets at 10 mA cm −2 only required 295 mV and 180 mV, respectively. During the accelerated durability test, in the presence of Pt/C dopants, CoSSeNi–Pt/C catalyst exhibited excellent long-time durability in alkaline media. Meanwhile, CoSSeNi–Pt/C showed much higher DOS near the Fermi level and the higher electron density near the Fermi level would facilitate the adsorption of adsorbates. • Pt/C (20%) doped and inserted into CoSSeNi catalyst. • Two steps of hydrothermal reaction and high temperature calcination process. • Much higher DOS near the Fermi level would facilitate the adsorption of adsorbates." @default.
W4226305309 created "2022-05-05" @default.
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W4226305309 date "2022-05-01" @default.
W4226305309 modified "2023-10-02" @default.
W4226305309 title "Bifunctional doped transition metal CoSSeNi–Pt/C for efficient electrochemical water splitting" @default.
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W4226305309 cites W2092034337 @default.
W4226305309 cites W2300776546 @default.
W4226305309 cites W2437261131 @default.
W4226305309 cites W2518432670 @default.
W4226305309 cites W2578523143 @default.
W4226305309 cites W2611770382 @default.
W4226305309 cites W2616420036 @default.
W4226305309 cites W2721062945 @default.
W4226305309 cites W2729476522 @default.
W4226305309 cites W2746374121 @default.
W4226305309 cites W2774108120 @default.
W4226305309 cites W2784020165 @default.
W4226305309 cites W2788650396 @default.
W4226305309 cites W2791662045 @default.
W4226305309 cites W2809873527 @default.
W4226305309 cites W2887502181 @default.
W4226305309 cites W2890845528 @default.
W4226305309 cites W2893354699 @default.
W4226305309 cites W2898810057 @default.
W4226305309 cites W2898856659 @default.
W4226305309 cites W2903412046 @default.
W4226305309 cites W2921173368 @default.
W4226305309 cites W2941742306 @default.
W4226305309 cites W2950985213 @default.
W4226305309 cites W2960701216 @default.
W4226305309 cites W2962684035 @default.
W4226305309 cites W2963912632 @default.
W4226305309 cites W2965309880 @default.
W4226305309 cites W2968536704 @default.
W4226305309 cites W2969534670 @default.
W4226305309 cites W2982996941 @default.
W4226305309 cites W2989937750 @default.
W4226305309 cites W2991824107 @default.
W4226305309 cites W2993217230 @default.
W4226305309 cites W2993640015 @default.
W4226305309 cites W2994505712 @default.
W4226305309 cites W2995837503 @default.
W4226305309 cites W2996977767 @default.
W4226305309 cites W2998762046 @default.
W4226305309 cites W2999890506 @default.
W4226305309 cites W3000211611 @default.
W4226305309 cites W3004048178 @default.
W4226305309 cites W3004787932 @default.
W4226305309 cites W3008544195 @default.
W4226305309 cites W3008853962 @default.
W4226305309 cites W3011414452 @default.
W4226305309 cites W3016988187 @default.
W4226305309 cites W3019732720 @default.
W4226305309 cites W3027598223 @default.
W4226305309 cites W3028786573 @default.
W4226305309 cites W3032889172 @default.
W4226305309 cites W3037910374 @default.
W4226305309 cites W3042952613 @default.
W4226305309 cites W3044013359 @default.
W4226305309 cites W3054324654 @default.
W4226305309 cites W3092511322 @default.
W4226305309 cites W3107762509 @default.
W4226305309 cites W3111523108 @default.
W4226305309 cites W3121257019 @default.
W4226305309 cites W3122925538 @default.
W4226305309 cites W3126161423 @default.
W4226305309 cites W3128879825 @default.
W4226305309 cites W3156915111 @default.
W4226305309 cites W3162729105 @default.
W4226305309 cites W3163463982 @default.
W4226305309 cites W3173182430 @default.
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W4226305309 doi "https://doi.org/10.1016/j.ijhydene.2022.03.181" @default.
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