水溶液中氢键寿命的定义和弛豫机理

氢键弛豫过程决定水溶液中分子的动力学行为,氢键寿命作为理论和实验结果中一个重要的参数通常用以描述溶液中的氢键动力学性质.本文采用SPC/E-P2和SPC/E-OPLS两种力场方法对二甲基亚砜(DMSO)水溶液体系进行分子动力学模拟,计算了四种不同定义下的氢键寿命,并进行了对比阐述.连续性氢键寿命T_C和基于动力学平衡方法下的氢键寿命T_R较短,它们忽略了不成功的氢键交换过程,稳定态模型下的氢键寿命T_(PR)能够真实体现氢键转换过程,可作为标度衡量其它量值.间歇性氢键寿命T_I相对最长,重复统计了氢键成功交换后的恢复概率.随着二甲基亚砜浓度增大,T_C、T_I、T_R和T_(PR)不断增大,分...

Full description

Saved in:
Bibliographic Details
Published in物理化学学报 Vol. 27; no. 11; pp. 2547 - 2552
Main Author 张霞 张强 赵东霞
Format Journal Article
LanguageChinese
Published 渤海大学化学化工与食品安全学院,辽宁锦州,121000%辽宁师范大学化学化工学院,辽宁大连,116029 2011
Subjects
分子力场
分子动力学模拟
氢键交换
氢键寿命
相关函数
Hydrogen bond exchange
分子力场
Force field
氢键寿命
Correlation function
分子动力学模拟
氢键交换
Molecular dynamics simulation
相关函数
Hydrogen bond lifetime
Online AccessGet full text
ISSN1000-6818

Cover

More Information
Summary:氢键弛豫过程决定水溶液中分子的动力学行为,氢键寿命作为理论和实验结果中一个重要的参数通常用以描述溶液中的氢键动力学性质.本文采用SPC/E-P2和SPC/E-OPLS两种力场方法对二甲基亚砜(DMSO)水溶液体系进行分子动力学模拟,计算了四种不同定义下的氢键寿命,并进行了对比阐述.连续性氢键寿命T_C和基于动力学平衡方法下的氢键寿命T_R较短,它们忽略了不成功的氢键交换过程,稳定态模型下的氢键寿命T_(PR)能够真实体现氢键转换过程,可作为标度衡量其它量值.间歇性氢键寿命T_I相对最长,重复统计了氢键成功交换后的恢复概率.随着二甲基亚砜浓度增大,T_C、T_I、T_R和T_(PR)不断增大,分子平动扩散系数在中等浓度达到极小,说明氢键寿命与分子活动性无决定性关联,同类型氢键在不同浓度下的寿命差异表明氢键寿命具有分子环境依赖性;水分子和二甲基亚砜分子氢键个数降低,氢键受激角度扭曲和拉伸概率下降,T_C和T_R不断接近,氢键交换受体密度降低使氢键交换速率下降,T_(PR)断增大,氢键寿命与其周围氢键密度密切相关.T_1与T_(PR)的比值体现了氢键交换的局域性,其变化趋势与分子平动活动性趋势相同.两种力场下氢键寿命的差异也说明氢键的寿命具有明显的理论模型依赖性.
Bibliography:11-1892/06
The molecular dynamics behaviors in water solutions are determined by the hydrogen bond (H-bond) relaxations.The H-bond lifetime,as an important experimental and theoretical parameter,is often used to explore the general kinetics of H-bond dynamics.In this work,four different H-bond lifetimes were defined and calculated in dimethyl sulfoxide(DMSO)-water mixtures with two widely-used combined force fields,SPC/E-P2 and SPC/E-OPLS.The continuous and kinetic based H-bond lifetimes,T_C and T_R,are always shorter than the T_(PR) of stable states due to neglecting of unsuccessful H-bond exchanges.The intermittent H-bond lifetime T_I was found to be the longest because of a recount of the reforming events after the successful switching event.The H-bond lifetimes,T_C,T_I,T_R,and T_(PR) increase with the mole fraction of DMSO(X_D).This trend is not consistent with that of the molecular diffuse constants.This shows that the molecular mobility is not a decisive factor to the H-bond lifetime.The environment-depe
ISSN:1000-6818