在一个能裂解氮气的铼体系中，氨能轻松转化为氮化物。

Facile conversion of ammonia to a nitride in a rhenium system that cleaves dinitrogen.

作者信息

Connor Gannon P, Delony Daniel, Weber Jeremy E, Mercado Brandon Q, Curley Julia B, Schneider Sven, Mayer James M, Holland Patrick L

机构信息

Department of Chemistry, Yale University New Haven Connecticut USA

Institute of Inorganic Chemistry, Georg-August-Universität Göttingen Göttingen Germany.

出版信息

Chem Sci. 2022 Mar 4;13(14):4010-4018. doi: 10.1039/d1sc04503b. eCollection 2022 Apr 6.

DOI:10.1039/d1sc04503b

PMID:35440977

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8985503/

Abstract

Rhenium complexes with aliphatic PNP pincer ligands have been shown to be capable of reductive N splitting to nitride complexes. However, the conversion of the resulting nitride to ammonia has not been observed. Here, the thermodynamics and mechanism of the hypothetical N-H bond forming steps are evaluated through the reverse reaction, conversion of ammonia to the nitride complex. Depending on the conditions, treatment of a rhenium(iii) precursor with ammonia gives either a bis(amine) complex [(PNP)Re(NH)Cl], or results in dehydrohalogenation to the rhenium(iii) amido complex, (PNP)Re(NH)Cl. The N-H hydrogen atoms in this amido complex can be abstracted by PCET reagents which implies that they are quite weak. Calorimetric measurements show that the average bond dissociation enthalpy of the two amido N-H bonds is 57 kcal mol, while DFT computations indicate a substantially weaker N-H bond of the putative rhenium(iv)-imide intermediate (BDE = 38 kcal mol). Our analysis demonstrates that addition of the first H atom to the nitride complex is a thermochemical bottleneck for NH generation.

摘要

已证明含脂肪族PNP钳形配体的铼配合物能够将N还原裂解为氮化物配合物。然而，尚未观察到所得氮化物转化为氨的过程。在此，通过氨转化为氮化物配合物的逆反应，对假设的N-H键形成步骤的热力学和机理进行了评估。根据条件不同，用氨处理铼(III)前体，要么得到双(胺)配合物[(PNP)Re(NH)Cl]，要么导致脱氢卤化生成铼(III)酰胺配合物(PNP)Re(NH)Cl。该酰胺配合物中的N-H氢原子可被PCET试剂夺取，这表明它们相当不稳定。量热测量表明，两个酰胺N-H键的平均键解离焓为57 kcal/mol，而DFT计算表明假定的铼(IV)-亚胺中间体的N-H键要弱得多(BDE = 38 kcal/mol)。我们的分析表明，向氮化物配合物中添加第一个H原子是生成NH的热化学瓶颈。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0ff/8985503/05165b6011f5/d1sc04503b-s1.jpg

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在一个能裂解氮气的铼体系中，氨能轻松转化为氮化物。

Facile conversion of ammonia to a nitride in a rhenium system that cleaves dinitrogen.

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