从头算分子动力学模拟研究全氟磺酸功能化碳纳米管中的质子传递。

Ab initio molecular dynamics simulations investigating proton transfer in perfluorosulfonic acid functionalized carbon nanotubes.

机构信息

Department of Chemical and Biomolecular Engineering, University of Tennessee, Knoxville, Tennessee 37996, USA.

出版信息

Phys Chem Chem Phys. 2010 Aug 21;12(31):8728-32. doi: 10.1039/c0cp00130a. Epub 2010 Jun 16.

PMID:20556301

Abstract

Proton dissociation and transfer were examined with ab initio molecular dynamics (AIMD) simulations of carbon nanotubes (CNT) functionalized with perfluorosulfonic acid (-CF(2)SO(3)H) groups with 1-3 H(2)O/SO(3)H. The CNT systems were constructed both with and without fluorine atoms covalently bound to the walls to elucidate the effects of the presence of a strongly hydrophobic environment, the fluorine, on proton dissociation, hydration, and stabilization. The simulations revealed that the dissociated proton was preferentially stabilized as a hydrated hydronium cation (i.e., Eigen like) in the fluorinated CNTs but as a Zundel (H(5)O(2)(+)) cation in the nonfluorinated CNTs. This feature is attributed to the fluorine atoms forming hydrogen bonds with the water molecules coordinated to the central hydronium ion.

摘要

质子的离解和转移通过对功能化有全氟磺酸（-CF(2)SO(3)H）基团的碳纳米管（CNT）的从头算分子动力学（AIMD）模拟进行了研究，这些基团带有 1-3 个 H(2)O/SO(3)H。CNT 系统构建时既有共价键结合到壁上的氟原子也有没有氟原子的，以阐明强疏水环境（氟）对质子离解、水合和稳定的影响。模拟表明，离解的质子在氟化的 CNT 中优先作为水合的质子化铵（即 Eigen 型）稳定存在，而在非氟化的 CNT 中则作为 Zundel（H(5)O(2)(+））阳离子稳定存在。这一特征归因于氟原子与配位在中心质子化铵上的水分子形成氢键。

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从头算分子动力学模拟研究全氟磺酸功能化碳纳米管中的质子传递。

Ab initio molecular dynamics simulations investigating proton transfer in perfluorosulfonic acid functionalized carbon nanotubes.

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