Active role of hydrogen bond and ambient water in Meyer-Schuster rearrangements in high-temperature water

Wang Z.; Chang Y.; Gong X.; Dai L.

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Active role of hydrogen bond and ambient water in Meyer-Schuster rearrangements in high-temperature water

机译：氢键和环境水在高温水中Meyer-Schuster重排中的积极作用

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Meyer-Schuster rearrangements of 2-phenyl-3-butyn-2-ol with H _3O ~+ and (H _2O) _6 model in high-temperature water (HTW) have been investigated by the use of density functional theory calculations. In the substrate 2-phenyl-3-butyn-2-ol catalyzed by H _3O ~+ and (H _2O) _6, the Meyer-Schuster rearrangements were predicted by the frontier molecular orbital theory. The results show that the rearrangement does not involve the carbonium ion intermediates, but the first transition state is carboniumion like. Dehydration and hydration may occur via the intermolecular proton relay along the hydrogen-bond chains and the second step of reaction path is a total acid-base catalytic process. Based on the results, a model considered both HTW ambient and water molecules are proposed to represent mechanisms of other reactions in HTW.

机译：利用密度泛函理论计算研究了2-苯基-3-丁炔-2-醇在高温水（HTW）中具有H _3O〜+和（H _2O）_6模型的Meyer-Schuster重排。在H _3O〜+和（H _2O）_6催化的底物2-苯基-3-丁炔-2-醇中，通过前沿分子轨道理论预测了迈耶-舒斯特重排。结果表明，重排不涉及碳鎓离子中间体，但第一过渡态为碳鎓离子状。可能通过分子间质子中继沿着氢键链发生脱水和水合，反应路径的第二步是整个酸碱催化过程。根据结果，提出了同时考虑HTW环境分子和水分子的模型来代表HTW中其他反应的机理。

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《International Journal of Quantum Chemistry》 |2012年第4期|共6页
作者
Wang Z.; Chang Y.; Gong X.; Dai L.;
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HTW; hydrogen bond; Meyer-Schuster rearrangement; model;

机译：HTW;氢键;Meyer-Schuster重排;模型;
入库时间 2022-08-19 12:54:17

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1. Active role of hydrogen bond and ambient water in Meyer-Schuster rearrangements in high-temperature water [J] . Wang Z., Chang Y., Gong X., International Journal of Quantum Chemistry . 2012,第3a4期

机译：氢键和环境水在高温水中Meyer-Schuster重排中的积极作用
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Active role of hydrogen bond and ambient water in Meyer-Schuster rearrangements in high-temperature water

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