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W4312160318 endingPage "122250" @default.
W4312160318 startingPage "122250" @default.
W4312160318 abstract "Rechargeable Zn-air batteries (ZABs) have been attracting research interests worldwide owing to their high energy density, as well as the good safety and low cost. However, the lack of highly active bifunctional electrocatalysts for oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) at air cathode seriously hinders its developments. Herein, a vanadium doped Co9S8 (V-Co9S8) nanoparticles encapsulated in the nitrogen-doped porous carbon nanoflowers (NFs) has been prepared by an innovative double-solvent approach (DSA) that can precisely control the level of vanadium doping. The magnetic measurements and the theoretical calculation consistently demonstrate that the spin state of Co can be optimized by tuning the vanadium doping level. The spin-state modulation raises the d-band center of Co and enables the enhanced Co-S covalency in V-Co9S8, which balances the adsorption/desorption of oxygen intermediates and finally accelerates the oxygen redox kinetic. As a result, V-Co9S8 serving as a cost-effectively bifunctional catalyst for the cathode of a rechargeable ZAB, supplies a superb power density of 345 mW cm−2, an energy density of 814 mAh gZn−1 and a super durability with a stable operation of 840 cycles, which outperforms the noble metal catalyst (Pt/C and RuO2) and the most Co based catalysts reported recently." @default.
W4312160318 created "2023-01-04" @default.
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W4312160318 date "2023-05-01" @default.
W4312160318 modified "2023-10-15" @default.
W4312160318 title "Modest modulation on the electronic structure of Co9S8 by vanadium doping for high-performance rechargeable Zn–air batteries" @default.
W4312160318 cites W2019734609 @default.
W4312160318 cites W2020080291 @default.
W4312160318 cites W2032364562 @default.
W4312160318 cites W2044591029 @default.
W4312160318 cites W2068339282 @default.
W4312160318 cites W2076968595 @default.
W4312160318 cites W2082629032 @default.
W4312160318 cites W2083788575 @default.
W4312160318 cites W2120456504 @default.
W4312160318 cites W2162829714 @default.
W4312160318 cites W2167035995 @default.
W4312160318 cites W2230728100 @default.
W4312160318 cites W2290983583 @default.
W4312160318 cites W2320627461 @default.
W4312160318 cites W2335649524 @default.
W4312160318 cites W2461658204 @default.
W4312160318 cites W2599250175 @default.
W4312160318 cites W2605348060 @default.
W4312160318 cites W2606017501 @default.
W4312160318 cites W2618437702 @default.
W4312160318 cites W2624508105 @default.
W4312160318 cites W2695378732 @default.
W4312160318 cites W2736369306 @default.
W4312160318 cites W2738066481 @default.
W4312160318 cites W2749019585 @default.
W4312160318 cites W2767331214 @default.
W4312160318 cites W2773604818 @default.
W4312160318 cites W2778552025 @default.
W4312160318 cites W2779800627 @default.
W4312160318 cites W2781103706 @default.
W4312160318 cites W2791721406 @default.
W4312160318 cites W2792651845 @default.
W4312160318 cites W2793152478 @default.
W4312160318 cites W2890337579 @default.
W4312160318 cites W2895428488 @default.
W4312160318 cites W2901245970 @default.
W4312160318 cites W2920653331 @default.
W4312160318 cites W2922167275 @default.
W4312160318 cites W2923705481 @default.
W4312160318 cites W2937939811 @default.
W4312160318 cites W2950614467 @default.
W4312160318 cites W2970620757 @default.
W4312160318 cites W2973207904 @default.
W4312160318 cites W2973840895 @default.
W4312160318 cites W2982496391 @default.
W4312160318 cites W2995229247 @default.
W4312160318 cites W3001489788 @default.
W4312160318 cites W3005878639 @default.
W4312160318 cites W3018480425 @default.
W4312160318 cites W3023669814 @default.
W4312160318 cites W3024755958 @default.
W4312160318 cites W3028211976 @default.
W4312160318 cites W3034197579 @default.
W4312160318 cites W3040921244 @default.
W4312160318 cites W3047786406 @default.
W4312160318 cites W3093103187 @default.
W4312160318 cites W3108994360 @default.
W4312160318 cites W3112730857 @default.
W4312160318 cites W3132215901 @default.
W4312160318 cites W3153504165 @default.
W4312160318 cites W3166959667 @default.
W4312160318 cites W3168503038 @default.
W4312160318 cites W3170651996 @default.
W4312160318 cites W3173533549 @default.
W4312160318 cites W3179107870 @default.
W4312160318 cites W3184262389 @default.
W4312160318 cites W3192316659 @default.
W4312160318 cites W3195009292 @default.
W4312160318 cites W3196374844 @default.
W4312160318 cites W3202967309 @default.
W4312160318 cites W4206151682 @default.
W4312160318 cites W4210664603 @default.
W4312160318 cites W4210862363 @default.
W4312160318 cites W4220793908 @default.
W4312160318 cites W4221069253 @default.
W4312160318 cites W4225506675 @default.
W4312160318 cites W4245393260 @default.
W4312160318 doi "https://doi.org/10.1016/j.apcatb.2022.122250" @default.
W4312160318 hasPublicationYear "2023" @default.
W4312160318 type Work @default.
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