基于分子轨道隐式溶剂H2O下苏氨酸的电荷转移

吉林大学学报(理学版) ›› 2019, Vol. 57 ›› Issue (04): 951-956.

基于分子轨道隐式溶剂H₂O下苏氨酸的电荷转移

祝颖, 陈洪斌

吉林医药学院生物医学工程学院, 吉林吉林 132013

收稿日期:2018-07-02 出版日期:2019-07-26 发布日期:2019-07-11
通讯作者: 陈洪斌 E-mail:15143215955@163.com

Charge Transfer of Threonine Based on Molecular Orbitunder Implicit Solvent H₂O

ZHU Ying, CHEN Hongbin

College of Biomedical Engineering, Jilin Medical University, Jilin 132013, Jilin Province, China

Received:2018-07-02 Online:2019-07-26 Published:2019-07-11
Contact: CHEN Hongbin E-mail:15143215955@163.com

摘要/Abstract

摘要： 基于分子轨道（MO）和自然跃迁轨道（NTO）成分计算分子片段间的电荷转移. 先用密度泛函理论(DFT)中的CAM-B3LYP方法, 在6-31G(d)基组水平上优化隐式溶剂H₂O下苏氨酸（Thr）分子的几何构型，再在相同理论方法下进行含时密度泛函理论(TDDFT)的电子激发计算, 给出隐式溶剂H₂O下Thr分子体系电子激发过程中片段间电荷转移特征的对比结果. 结果表明：在S1~S5激发态中, 仅S2中有一对MO32→MO33跃迁轨道占绝对优势, 可通过分析该轨道的成分讨论电荷转移；其他激发态可通过NTO分析方法讨论电荷转移； S0向激发态S1,S3和S4电荷转移的主要贡献为NTO32→NTO33轨道, 与Hirshfeld和Becke方法的定性结果一致, 定量结果略有差别.

关键词: 苏氨酸(Thr), 分子轨道, 自然跃迁轨道, 电荷转移

Abstract: The charge transfer between molecular fragments was calculated based on components of molecular orbit (MO) and natural transition orbit (NTO), we first optimized the geometric configuration of threonine (Thr) molecule at 6-31G(d) basis set under implicit solvent H₂O by using the CAMB3LYP method of density functional theory. Then, we calculated the electron excitation of time dependent density functional theory (TDDFT) under the same theoretical method, and gave the results of comparing the charge transfer characteristics between fragments during the electron excitation of Thr molecular system under implicit solvent H₂O. The results show that in the S1—S5 excited state, only a pair of MO32→MO33 transition orbits are dominant in the S2, and the charge transfer can be discussed by analyzing the orbital components of the orbit,
charge transfer of other excited states can be discussed by NTO analysis method. The main contribution of charge transfer from S0 to excited states S1,S3 and S4 is NTO32→NTO33 orbit, which is consistent with the qualitative results of
Hirshfeld and Becke methods, and the quantitative results are slightly different.

Key words: threonine (Thr), molecular orbit (MO), natural transition orbit (NTO), charge transfer

中图分类号:

O561.4

祝颖, 陈洪斌. 基于分子轨道隐式溶剂H₂O下苏氨酸的电荷转移[J]. 吉林大学学报(理学版), 2019, 57(04): 951-956.

ZHU Ying, CHEN Hongbin. Charge Transfer of Threonine Based on Molecular Orbitunder Implicit Solvent H₂O[J]. Journal of Jilin University Science Edition, 2019, 57(04): 951-956.

[1]	鲍捷, 欧仁侠, 祝颖. 基于NTO类型图解苏氨酸分子体系的价层激发[J]. 吉林大学学报(理学版), 2021, 59(1): 156-161.
[2]	鲍捷, 欧仁侠, 祝颖. 基于分子轨道特征苏氨酸分子体系的电子激发类型[J]. 吉林大学学报(理学版), 2020, 58(6): 1479-1483.
[3]	祝颖, 陈洪斌. 基于原子电荷计算隐式溶剂下的甲硫氨酸电荷转移[J]. 吉林大学学报(理学版), 2019, 57(3): 663-667.
[4]	祝颖, 陈洪斌. 苯丙氨酸电荷转移百分数的理论计算[J]. 吉林大学学报(理学版), 2019, 57(2): 417-422.
[5]	张志军, 乔斌, 郭煌, 宋炳章, 郭树怀. R型半胱氨酸体系电荷转移百分数的理论计算[J]. 吉林大学学报(理学版), 2019, 57(1): 151-155.
[6]	张志军, 郭树怀. 隐式溶剂下S-亮氨酸体系分子轨道NAO贡献的计算[J]. 吉林大学学报(理学版), 2018, 56(6): 1521-1525.
[7]	辛春雨, 王野. 7-羟基黄酮分子在水中分子内电荷转移及分子间多重质子的转移[J]. 吉林大学学报(理学版), 2017, 55(05): 1317-1322.
[8]	王佐成, 刘凤阁, 吕洋, 赵衍辉, 于天荣. 孤立条件下α-丙氨酸分子手性转变机制的密度泛函理论[J]. 吉林大学学报(理学版), 2014, 52(04): 825-830.

基于分子轨道隐式溶剂H₂O下苏氨酸的电荷转移

Charge Transfer of Threonine Based on Molecular Orbitunder Implicit Solvent H₂O

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 8

Metrics

本文评价

推荐阅读 10