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Synergy of Substrate Chemical Environments and Single-Atom Catalysts Promotes Catalytic Performance: Nitrogen Reduction on Chiral and Defected Carbon Nanotubes. | LitMetric

AI Article Synopsis

  • Single-atom catalysts (SACs) have their catalytic effectiveness influenced by the local chemical environments of their substrates, allowing for adjustments to their electronic structures.
  • The study used first-principles calculations to explore how the geometric and electronic properties of substrates like carbon nanotubes interact with various transition metal SACs, focusing on the electrocatalytic nitrogen reduction reaction (NRR).
  • Three specific SACs were found to achieve high selectivity for NRR with low energy barriers, indicating that a combination of substrate characteristics and SAC design can significantly enhance catalytic performance.

Article Abstract

The catalytic activities of single-atom catalysts (SACs) are strongly influenced by the local chemical environments of their substrates, by which the electronic structures of the SACs can be effectively tuned. Together with the freedom of available reactive metallic centers, it would be feasible to maximize the catalytic performance by means of a synergetic optimization in the chemical space spanned by the features of both the substrate and the catalytic center. In this work, using first-principles calculations, we systematically assessed the synergetic effect between the substrate geometric/electronic structures and the catalytic centers on the electrocatalytic nitrogen reduction reaction (NRR). Carbon nanotubes with different chirality, defects, and chemical functionalization were used to support 15 transition metal atoms. Three SACs, TiNCNT(3,3), TiNCNT(5,5), and VNCNT(3,3), simultaneously possess high NRR selectivities (w.r.t hydrogen evolution) and low overpotentials of 0.35, 0.35, and 0.37 V, respectively. Electronic structure analysis elucidated that larger metal atoms anchored on CNTs with higher curvature and doped by N atoms facilitate the rupture of the N-N bond in *NHNH to lower the overpotentials. The synergy of substrate chemical environments and single atomic catalysis is a promising strategy to optimize the catalytic performance.

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Source
http://dx.doi.org/10.1021/acsami.2c17280DOI Listing

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