Cleavage of the N≡N Triple Bond and Unpredicted Formation of the Cyclic 1,3‐Diaza‐2,4‐Diborete (FB) 2 N 2  from N 2  and Fluoroborylene BF | Zendy

Xu Bing | Zendy; Beckers Helmut | Zendy; Ye Haoyu | Zendy; Lu Yan | Zendy; Cheng Juanjuan | Zendy; Wang Xuefeng | Zendy; Riedel Sebastian | Zendy

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Cleavage of the N≡N Triple Bond and Unpredicted Formation of the Cyclic 1,3‐Diaza‐2,4‐Diborete (FB) 2 N 2 from N 2 and Fluoroborylene BF

Author(s) -

Xu Bing,

Beckers Helmut,

Ye Haoyu,

Lu Yan,

Cheng Juanjuan,

Wang Xuefeng,

Riedel Sebastian

Publication year - 2021

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.202106984

Subject(s) - cleavage (geology) , triple bond , bond cleavage , chemistry , crystallography , materials science , catalysis , polymer chemistry , double bond , organic chemistry , composite material , fracture (geology)

A complete cleavage of the triple bond of N 2 by fluoroborylene (:BF) was achieved in a low‐temperature N 2 matrix by the formation of the four‐membered heterocycle FB( μ ‐N) 2 BF, which lacks a trans ‐annular N−N bond. Additionally, the linear complex FB=N−N=BF and cyclic FB( η 2 ‐N 2 ) were formed. These novel species were characterized by their matrix infrared spectra and quantum‐chemical calculations. The puckered four‐membered‐ring B 2 N 2 complex shows a delocalized aromatic two‐electron π‐system in conjugation with the exo ‐cyclic fluorine π lone pairs. This work may contribute to a rational design of catalysts based on borylene for artificial dinitrogen activation.

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