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W4296242309 endingPage "154935" @default.
W4296242309 startingPage "154935" @default.
W4296242309 abstract "Efficient nitrogen reduction reaction (NRR) under mild conditions remains a long-standing challenge. Single-atom catalysts (SACs) with high utilization, selectivity, and activity have cut a great splash in past years. Here, we showed four (B-1, B-2, W-1, and W-2 terminated) WB2 (0 0 1) surfaces are promising alternative supports for low-cost transition metal (TM) SACs toward NRR. After the density-functional-theory (DFT) high-throughput screening, the results show that the single Cr atoms anchored on site 1 of W-1 and W-2 terminations serve as the most active catalytic center among all TMs, the limiting potentials of [email protected]([email protected]) and [email protected]([email protected]) are only −0.28 V and −0.37 V, respectively. Besides, the single V atom anchored on [email protected] and single Mn atoms anchored on [email protected] shows the best NRR performances. The limiting potentials of [email protected]([email protected]) and [email protected]([email protected]) are only around −0.19 V and −0.28 V, respectively. What’s more, the excellent selectivities of [email protected]([email protected]), [email protected]([email protected]), [email protected]([email protected]), and [email protected]([email protected]) to NRR were further confirmed. This work proposes new single atom-substrate pairs and offers systematical insights into the design scheme for high-efficient NH3 production on WB2 (0 0 1) surfaces-supported SACs." @default.
W4296242309 created "2022-09-18" @default.
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W4296242309 date "2022-12-01" @default.
W4296242309 modified "2023-10-09" @default.
W4296242309 title "High-throughput screening of highly active and selective single-atom catalysts for ammonia synthesis on WB2 (0 0 1) surface" @default.
W4296242309 cites W1974324776 @default.
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W4296242309 cites W1998623472 @default.
W4296242309 cites W2007395042 @default.
W4296242309 cites W2017999312 @default.
W4296242309 cites W2018459257 @default.
W4296242309 cites W2022714449 @default.
W4296242309 cites W2032395845 @default.
W4296242309 cites W2044591029 @default.
W4296242309 cites W2083222334 @default.
W4296242309 cites W2087698390 @default.
W4296242309 cites W2319969628 @default.
W4296242309 cites W2460396937 @default.
W4296242309 cites W2586637063 @default.
W4296242309 cites W2591686856 @default.
W4296242309 cites W2618803434 @default.
W4296242309 cites W2735489250 @default.
W4296242309 cites W2781713722 @default.
W4296242309 cites W2803438242 @default.
W4296242309 cites W2809806541 @default.
W4296242309 cites W2821679111 @default.
W4296242309 cites W2851134227 @default.
W4296242309 cites W2887542968 @default.
W4296242309 cites W2888064560 @default.
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W4296242309 cites W2904144306 @default.
W4296242309 cites W2904495528 @default.
W4296242309 cites W2905180025 @default.
W4296242309 cites W2909197523 @default.
W4296242309 cites W2909267103 @default.
W4296242309 cites W2918930942 @default.
W4296242309 cites W2942020845 @default.
W4296242309 cites W2946645832 @default.
W4296242309 cites W2947517642 @default.
W4296242309 cites W2949697738 @default.
W4296242309 cites W2951818978 @default.
W4296242309 cites W2954286745 @default.
W4296242309 cites W2956118812 @default.
W4296242309 cites W2972808271 @default.
W4296242309 cites W2978591734 @default.
W4296242309 cites W2981701286 @default.
W4296242309 cites W2989692654 @default.
W4296242309 cites W2991008243 @default.
W4296242309 cites W2994697019 @default.
W4296242309 cites W2999451610 @default.
W4296242309 cites W3034866664 @default.
W4296242309 cites W3038025793 @default.
W4296242309 cites W3081143926 @default.
W4296242309 cites W3086155421 @default.
W4296242309 cites W3096456195 @default.
W4296242309 cites W3097598502 @default.
W4296242309 cites W3107682947 @default.
W4296242309 cites W3130178323 @default.
W4296242309 cites W3131697798 @default.
W4296242309 cites W3160702750 @default.
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W4296242309 cites W3179588542 @default.
W4296242309 cites W3201389602 @default.
W4296242309 cites W4220764474 @default.
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W4296242309 doi "https://doi.org/10.1016/j.apsusc.2022.154935" @default.
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