通过同电荷离子相互作用和空间定义的有机域实现分子离子的自组装。

Self-assembly of molecular ions via like-charge ion interactions and through-space defined organic domains.

作者信息

McNally J S, Wang X P, Hoffmann C, Wilson A D

机构信息

Idaho National Laboratory (INL) P.O. Box, 1625 MS 3531, Idaho Falls, ID 83415-3531, USA.

出版信息

Chem Commun (Camb). 2017 Oct 3;53(79):10934-10937. doi: 10.1039/c7cc06401b.

DOI:10.1039/c7cc06401b

PMID:28933468

Abstract

Reaction stoichiometry, dynamic light scattering, and DFT are used to explore tertiary ammonium bicarbonates that exist as ideal solutes and those that self-assemble. Self-assembling tertiary amines featured organic surfaces beyond a through-space defined sphere around the charge center. Like-charge hydrogen-bonded ion pairs (or anti-electrostatic hydrogen bonding (AEHB)) also play a role in the self-assembly and provide the first evidence of this bonding motif by bicarbonate in aqueous solution. A single crystal neutron structure of a tertiary ammonium bicarbonate featuring a bicarbonate dimer is presented.

摘要

反应化学计量学、动态光散射和密度泛函理论被用于探索作为理想溶质存在的碳酸氢叔胺和那些能自组装的碳酸氢叔胺。自组装叔胺的特征是电荷中心周围存在一个超越空间定义球体的有机表面。同电荷氢键离子对（或反静电氢键（AEHB））在自组装中也起作用，并首次提供了碳酸氢根在水溶液中形成这种键合模式的证据。给出了一个具有碳酸氢根二聚体的碳酸氢叔胺的单晶中子结构。

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通过同电荷离子相互作用和空间定义的有机域实现分子离子的自组装。

Self-assembly of molecular ions via like-charge ion interactions and through-space defined organic domains.

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