2021
DOI: 10.1021/acscatal.1c02319
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Atomically Dispersed Ni/Cu Dual Sites for Boosting the CO2 Reduction Reaction

Abstract: Developing diatomic catalysts (DACs) for the CO2 reduction reaction (CO2RR) has emerged as a promising leading-edge research area owing to their maximum atomic utility and more sophisticated functionalities. However, the proper design of DACs at an atomic level and an understanding of the synergistic mechanism of binary sites remain challenging. Herein, an N-rich carbon matrix with precisely controlled Ni/Cu dual sites is synthesized through the assistance of metal–organic frameworks. The as-prepared catalyst … Show more

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Cited by 193 publications
(124 citation statements)
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“…Stability analysis should always be the priority before the subsequent activity analysis. 22 In this work, we selected a Fe-Ni-N6-C model (Figure 2a), a proven stable dual-atom structure, 23,24,28 as an example for illustration. We controlled the metal atom coordination environment by tuning the number of nitrogen atoms and location, affording a total of 64 DAC models.…”
Section: Resultsmentioning
confidence: 99%
See 2 more Smart Citations
“…Stability analysis should always be the priority before the subsequent activity analysis. 22 In this work, we selected a Fe-Ni-N6-C model (Figure 2a), a proven stable dual-atom structure, 23,24,28 as an example for illustration. We controlled the metal atom coordination environment by tuning the number of nitrogen atoms and location, affording a total of 64 DAC models.…”
Section: Resultsmentioning
confidence: 99%
“…Only a small number of DACs can retain the pristine state at the CO2RR potential, suggesting that a great majority of these 64 DACs may not be suitable for CO2RR. Surprisingly, Fe-Ni-N1,2,3,4,5,6-C, the mostly reported CO2RR catalyst, 24,28 would have its active sites occupied by 2H*. This phenomenon has been widely dismissed in previous studies (Figure 1).…”
Section: Catalytic Activity Analysis Using Surface Pourbaix Diagrams ...mentioning
confidence: 93%
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“…In addition to homonuclear DMS catalysts mentioned above, the fabrication of heteronuclear DMS catalysts is also conductive to enhance the ECR performance. Up to now, heteronuclear DMS Ni/Co, 151 Zn/Co, 152 Ni/Zn, 153 Ni/Cu, 154 NiSn, 155 Ni/Fe, 148,156,157 Fe/Cu, 158 and Zn/Ln 159 catalysts have been demonstrated to be effective ECR. For example, Zhao et al 148 synthesized a catalyst with Ni–Fe DMS anchored on NC for ECR.…”
Section: Strategies For Optimization Of Ldm Supported Sacs For Ecrmentioning
confidence: 99%
“…Besides, the synergistic effect of dual‐atomic sites is considered to induce the electronic effect of contiguous metal atoms [48a,50] . For instance, He and coworkers synthesised the Ni−Cu dual sites embedded in N‐doped carbon matrices, of which N 4 Ni/CuN 4 is their active sites for CO 2 RR [50a] …”
Section: Atomic‐level Modulation Of Dispersed Active Sitesmentioning
confidence: 99%