Cooperative Cu with defective MXene for enhanced nitrate electroreduction to ammonia

EcoEnergy Pub Date : 2024-03-28 DOI:10.1002/ece2.33

Yi Tan, Yijin Zhao, Xiaokang Chen, Shengliang Zhai, Xiao Wang, Le Su, Hongyan Yang, Wei-Qiao Deng, Ghim Wei Ho, Hao Wu

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Abstract

The electroreduction of nitrate (NO₃RR) to ammonia (NH₃) provides a promising solution to enable environmental remediation caused by ${NO}_{3}^{-}$ -containing waste and also allows for energy-saving NH₃ generation. Adsorption of *NO₂ intermediate may be strengthened to decrease byproducts (e.g., ${NO}_{2}^{-}$ ) and favor the eight-electron NO₃RR into NH₃. In this work, copper-incorporated O-vacancy containing Ti₃C₂ MXene (Cu@Ti₃C₂O_v) is reported, which cooperatively inhibits ${NO}_{2}^{-}$ production and facilitates hydrogenation, leading to approximately 100% Faradaic efficiencies of NH₃ and high yield rates at various potentials. Density functional theory calculations show that ${NO}_{3}^{-}$ and the *NO₂ intermediates have a significant interaction with the Cu@Ti₃C₂O_v catalyst. Moreover, the formation of ${NO}_{2}^{-}$ has a high energy barrier, which explains the appealing catalytic performance of the Cu@Ti₃C₂O_v toward NO₃RR with suppressed ${NO}_{2}^{-}$ and elevated NH₃ selectivity. This work would motivate the prudent design of new catalysts for high-performance NO₃RR to NH₃ by elucidating the significance of stabilizing the *NO₂ intermediate.

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铜与有缺陷的 MXene 合作，增强硝酸盐电还原成氨的能力

将硝酸盐（NO3RR）电还原成氨气（NH3）是一种很有前景的解决方案，既能修复含-的废物造成的环境问题，又能生成节能的 NH3。可加强对 *NO2 中间体的吸附，以减少副产物（如），并有利于八电子 NO3RR 转化为 NH3。在这项工作中，报告了铜掺杂的含 O-空位的 Ti3C2 MXene（Cu@Ti3C2Ov），它能协同抑制生成和促进氢化，从而在各种电位下实现约 100% 的 NH3 法拉第效率和高产率。密度泛函理论计算表明，*NO2 中间体与 Cu@Ti3C2Ov 催化剂有显著的相互作用。此外，*NO2 的形成具有很高的能量势垒，这就解释了为什么 Cu@Ti3C2Ov 对 NO3RR 具有很好的催化性能，同时还能抑制和提高 NH3 的选择性。通过阐明稳定 *NO2 中间体的重要性，这项工作将激励人们谨慎设计新型催化剂，以实现高性能 NO3RR 到 NH3 的转化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EcoEnergy

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