对氨基硼酸，即H2N-CH2-B(OH)2的几何结构和原脱硼反应的计算研究。

A computational investigation of the geometrical structure and protodeboronation of boroglycine, H2N-CH2-B(OH)2.

作者信息

Larkin Joseph D, Bhat Krishna L, Markham George D, Brooks Bernard R, Lai Jack H, Bock Charles W

机构信息

Department of Chemistry, Bloomsburg University of Pennsylvania, Bloomsburg, Pennsylvania 17815, USA.

出版信息

J Phys Chem A. 2007 Jul 19;111(28):6489-500. doi: 10.1021/jp0700682. Epub 2007 Jun 27.

DOI:10.1021/jp0700682

PMID:17595064

Abstract

In this article the geometrical structure of the simple, achiral, alpha-amino boronic acid boroglycine, H2N-CH2-B(OH)2, was investigated using density functional theory (DFT), second-order Møller-Plesset (MP2) perturbation theory, and coupled cluster methodology with single- and double-excitations (CCSD); the effects of an aqueous environment were incorporated into the results by using a few explicit water molecules and/or self-consistent reaction field (SCRF) calculations with the IEF polarizable continuum model (PCM). Neutral reaction mechanisms were investigated for the direct protodeboronation (hydrolysis) of boroglycine (H2O+H2N-CH2-B(OH)2-->B(OH)3+H2N-CH3), for which DeltaH degrees 298 was -21.9 kcal/mol at the MP2(FC)/aug-cc-pVDZ level, and for the 1,2-carbon-to-nitrogen shift of the -B(OH)2 moiety (H2N-CH2-B(OH)2-->H3C-NH-B(OH)2), for which the corresponding value of DeltaH degrees 298 was -18.2 kcal/mol. A boron-oxygen double-bonded intermediate was found to play an important role in the 1,2-rearrangement mechanism.

摘要

在本文中，使用密度泛函理论（DFT）、二阶Møller-Plesset（MP2）微扰理论以及含单双激发的耦合簇方法（CCSD）研究了简单、非手性的α-氨基硼酸硼甘氨酸（H2N-CH2-B(OH)2）的几何结构；通过使用几个明确的水分子和/或采用IEF极化连续介质模型（PCM）的自洽反应场（SCRF）计算，将水环境的影响纳入结果。研究了硼甘氨酸直接质子脱硼（水解）反应（H2O + H2N-CH2-B(OH)2→B(OH)3 + H2N-CH3）的中性反应机理，在MP2(FC)/aug-cc-pVDZ水平下，该反应的ΔH°298为-21.9 kcal/mol，还研究了-B(OH)2部分的1,2-碳到氮迁移反应（H2N-CH2-B(OH)2→H3C-NH-B(OH)2），其相应的ΔH°298值为-18.2 kcal/mol。发现硼氧双键中间体在1,2-重排机理中起重要作用。

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对氨基硼酸，即H2N-CH2-B(OH)2的几何结构和原脱硼反应的计算研究。

A computational investigation of the geometrical structure and protodeboronation of boroglycine, H2N-CH2-B(OH)2.

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