2021
DOI: 10.1002/cssc.202002596
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Confining Chainmail‐Bearing Ni Nanoparticles in N‐doped Carbon Nanotubes for Robust and Efficient Electroreduction of CO2

Abstract: It still remains challenging to simultaneously achieve high stability, selectivity, and activity in CO2 reduction. Herein, a dual chainmail‐bearing nickel‐based catalyst (Ni@NC@NCNT) was fabricated via a solvothermal‐evaporation‐calcination approach. In situ encapsulated N‐doped carbon layers (NCs) and nanotubes (NCNTs) gave a dual protection to the metallic core. The confined space well maintained the local alkaline pH value and suppressed hydrogen evolution. Large surface area and abundant pyridinic N and Ni… Show more

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Cited by 38 publications
(18 citation statements)
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“…All these results can confirm the intensified CO 2 adsorption caused by pyridinic-N, which will contribute to sufficient CO with the catalyst surface, thus relieving the mass transfer limitation to the CO 2 RR under a high reduction potential. 29,54 This effect is further verified by the LSV curves of NC@Ni/C-60 at varied KHCO 3 concentrations (Figure 4f). As revealed by a previous study, the increase of KHCO 3 concentration will strengthen the dissolved CO 2 concentration ([CO 2 ]).…”
Section: Resultssupporting
confidence: 57%
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“…All these results can confirm the intensified CO 2 adsorption caused by pyridinic-N, which will contribute to sufficient CO with the catalyst surface, thus relieving the mass transfer limitation to the CO 2 RR under a high reduction potential. 29,54 This effect is further verified by the LSV curves of NC@Ni/C-60 at varied KHCO 3 concentrations (Figure 4f). As revealed by a previous study, the increase of KHCO 3 concentration will strengthen the dissolved CO 2 concentration ([CO 2 ]).…”
Section: Resultssupporting
confidence: 57%
“…DFT calculations further confirm that the binding energy of CO 2 with pyridinic-N coated Ni (0.063 eV) is higher than that of CO 2 with pure Ni (0.024 eV), carbon-coated Ni (0.030 eV), graphitic-N-coated Ni (0.035 eV), and pyrrolic-N-coated Ni (0.050 eV) (Figure S10). All these results can confirm the intensified CO 2 adsorption caused by pyridinic-N, which will contribute to sufficient CO 2 interacting with the catalyst surface, thus relieving the mass transfer limitation to the CO 2 RR under a high reduction potential. , This effect is further verified by the LSV curves of NC@Ni/C-60 at varied KHCO 3 concentrations (Figure f). As revealed by a previous study, the increase of KHCO 3 concentration will strengthen the dissolved CO 2 concentration ([CO 2 ]) .…”
Section: Results and Discussionmentioning
confidence: 57%
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“…In recent years, Ni-based carbon materials have also been successfully synthesized. In 2021, Niu et al [77] prepared a double-chain nickel-based catalyst (Ni@NC@ NCNT) by solvothermal evaporation calcination. The performance of Ni@NC@NCNT for CO 2 RR is much better than that of single-chain Ni@NC.…”
Section: Metal Containing Polyatomic Dopingmentioning
confidence: 99%