固态相互作用氢键中的质子动力学:N,N ' -二(2-羟基-1-萘亚甲基)-对苯二胺NHO氢键中的质子隧穿

Sadamu Takeda, Tamotsu Inabe, Claudia Benedict, Uwe Langer, Hans-Heinrich Limbach
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引用次数: 24

摘要

结合质子自旋晶格弛豫速率的综合研究和低温15N-CP/MAS NMR谱,提供了固体N N ' -二(2-羟基-1-萘亚甲基)-对苯二胺(DNP)两个相互作用的NHO氢键中质子动力学的独特信息。氢核磁共振弛豫测量结果表明,氢键中的质子转移存在隧穿机制。隧穿现象与两个NHO氢键中伴随质子转移的四种互变异构态之间极小的能量差密切相关。15N-CP/MAS核磁共振谱显示,尽管NHO氢键具有化学不对称,但能差值很小。这是固体DNP的一个独特特征。从四种互变异构体的能量图和质子转移的活化能可以看出,由π-电子分子框架连接的两个NHO氢键之间存在相互作用。这意味着一个NHO氢键(即oh型或nh型)的信息传播到另一个氢键,并且第一个氢键中的质子转移引起了第二个氢键中质子转移的势函数的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Proton Dynamics in Interacting Hydrogen Bonds in the Solid State: Proton Tunneling in the NHO Hydrogen Bonds of N,N′-Di(2-Hydroxy-1-Naphthylmethylene)-p-Phenylenediamine

Combination of comprehensive investigations of the spin-lattice relaxation rate of proton and low temperature 15N-CP/MAS NMR spectrum provides unique information of proton dynamics in two interacting NHO hydrogen bonds of solid N,N′-di(2-hydroxy-1-naphthylmethylene)-p-phenylenediamine (DNP). It was evidenced from the 1H-NMR relaxation measurement that tunneling mechanism operates for the proton transfer in the hydrogen bonds. The tunneling phenomenon is closely related to the very small energy differences among the four tautomeric states accompanied with the proton transfer in the two NHO hydrogen bonds. The very small values of the energy difference, in spite of the chemically asymmetric NHO hydrogen bond, were revealed by the 15N-CP/MAS NMR spectrum. This is a unique character of solid DNP. It was also suggested from the derived energy scheme of the four tautomers and activation energies of the proton transfer that an interaction exists between the two NHO hydrogen bonds linked by π-electronic molecular frame. This means that the information of one NHO hydrogen bond, i.e. OH-form or NH-form, propagates to the other hydrogen bond and the proton transfer in the first hydrogen bond induces the change of the potential function for the proton transfer in the second hydrogen bond.

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