探究迄今尚未探索的基底稳定硼烯在氮气结合中的潜力。

Probing the Potential of Hitherto Unexplored Base-Stabilized Borylenes in Dinitrogen Binding.

机构信息

School of Physical Sciences, Ingram Building, University of Kent, Park Wood Rd, Canterbury, CT2 7NH, UK.

Institute for Inorganic Chemistry, Julius-Maximilians-Universität Würzburg, Am Hubland, 97074, Würzburg, Germany.

出版信息

Chemistry. 2022 Apr 12;28(21):e202104123. doi: 10.1002/chem.202104123. Epub 2022 Mar 15.

DOI:10.1002/chem.202104123

PMID:35191568

Abstract

Computational investigations were carried out to probe the potential of several dicoordinate, singly base-stabilized borylenes of the form [L→BR] (L=neutral Lewis base) in dinitrogen binding. The calculated reaction free energies and activation barriers associated with the formation of mono- and diborylene-N adducts suggest the presence of thermally surmountable kinetic barriers towards their possible isolation. Our results show that the exergonicity of dinitrogen activation and fixation is linearly dependent on the natural charge at the boron center, which can be tuned to design novel boron-based compounds with potential applications to small-molecule activation. EDA-NOCV analysis reveals strong binding of dinitrogen to these base-stabilized borylenes.

摘要

进行了计算研究，以探究几种形式为[L→BR]的（L=中性路易斯碱）单配位、单碱基稳定的硼烯在氮气结合中的潜在应用。计算得到的形成单硼烯-N 和双硼烯-N 加合物的反应自由能和活化能垒表明，它们的可能分离存在可通过热克服的动力学障碍。我们的结果表明，氮气的活化和固定的放能性与硼中心的自然电荷线性相关，这可以通过调节来设计具有潜在应用于小分子活化的新型硼基化合物。EDA-NOCV 分析表明，这些碱基稳定的硼烯与氮气具有强烈的结合作用。

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探究迄今尚未探索的基底稳定硼烯在氮气结合中的潜力。

Probing the Potential of Hitherto Unexplored Base-Stabilized Borylenes in Dinitrogen Binding.

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