通过可控 N-N 偶联级联电催化产氨将硝酸盐升级为联氨

IF 14.7 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Nature Communications Pub Date : 2024-10-03 DOI:10.1038/s41467-024-52825-1
Shunhan Jia, Libing Zhang, Hanle Liu, Ruhan Wang, Xiangyuan Jin, Limin Wu, Xinning Song, Xingxing Tan, Xiaodong Ma, Jiaqi Feng, Qinggong Zhu, Xinchen Kang, Qingli Qian, Xiaofu Sun, Buxing Han
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摘要

氮氧化物(NOx)在氮循环系统中发挥着重要作用,是利用清洁电力合成高附加值化学品的可再生氮源。然而,通过精确构建单个 N-N 键来实现氮氧化物到多氮产物(如 N2H4)的选择性转化具有挑战性。在此,我们提出了一种在环境条件下将氮氧化物转化为 N2H4 的策略,包括电化学将氮氧化物升级为 NH3,然后通过酮介导将 NH3 转化为 N2H4。该方法的氮氧化物转化为 N2H4 的总体选择性高达 88.7%,令人印象深刻。我们阐明了酮介导的 N-N 偶联过程的机理。由于二苯酮(DPK)的立体和共轭效应,它成为一种最佳介质,促进了受控的 N-N 偶联。乙腈溶剂通过氢键稳定并激活了关键的亚胺中间体。实验结果表明,在晶格氧介导的脱氢作用下,WO3 催化剂上形成的 Ph2CN* 中间体可作为关键单体,以高选择性驱动受控 N-N 偶联。此外,WO3 催化剂和 DPK 介质都表现出良好的可重复使用性,为绿色 N2H4 合成带来了希望。
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Upgrading of nitrate to hydrazine through cascading electrocatalytic ammonia production with controllable N-N coupling

Nitrogen oxides (NOx) play important roles in the nitrogen cycle system and serve as renewable nitrogen sources for the synthesis of value-added chemicals driven by clean electricity. However, it is challenging to achieve selective conversion of NOx to multi-nitrogen products (e.g., N2H4) via precise construction of a single N-N bond. Herein, we propose a strategy for NOx-to-N2H4 under ambient conditions, involving electrochemical NOx upgrading to NH3, followed by ketone-mediated NH3 to N2H4. It can achieve an impressive overall NOx-to-N2H4 selectivity of 88.7%. We elucidate mechanistic insights into the ketone-mediated N-N coupling process. Diphenyl ketone (DPK) emerges as an optimal mediator, facilitating controlled N-N coupling, owing to its steric and conjugation effects. The acetonitrile solvent stabilizes and activates key imine intermediates through hydrogen bonding. Experimental results reveal that Ph2CN* intermediates formed on WO3 catalysts acted as pivotal monomers to drive controlled N-N coupling with high selectivity, facilitated by lattice-oxygen-mediated dehydrogenation. Additionally, both WO3 catalysts and DPK mediators exhibit favorable reusability, offering promise for green N2H4 synthesis.

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来源期刊
Nature Communications
Nature Communications Biological Science Disciplines-
CiteScore
24.90
自引率
2.40%
发文量
6928
审稿时长
3.7 months
期刊介绍: Nature Communications, an open-access journal, publishes high-quality research spanning all areas of the natural sciences. Papers featured in the journal showcase significant advances relevant to specialists in each respective field. With a 2-year impact factor of 16.6 (2022) and a median time of 8 days from submission to the first editorial decision, Nature Communications is committed to rapid dissemination of research findings. As a multidisciplinary journal, it welcomes contributions from biological, health, physical, chemical, Earth, social, mathematical, applied, and engineering sciences, aiming to highlight important breakthroughs within each domain.
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