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Quantum Mechanical Molecular Interactions for Calculating the Excitation Energy in Molecular Environments: A First-Order Interacting Space Approach

机译：用于计算分子环境中激发能的量子力学分子相互作用：一阶相互作用空间法

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Intermolecular interactions regulate the molecular properties in proteins and solutions such as solvatochromic systems. Some of the interactions have to be described at an electronic-structure level. In this study, a commutator for calculating the excitation energy is used for deriving a first-order interacting space (FOIS) to describe the environmental response to solute excitation. The FOIS wave function for a solute-in-solvent cluster is solved by second-order perturbation theory. The contributions to the excitation energy are decomposed into each interaction and for each solvent.

机译：分子间的相互作用调节蛋白质和溶液（例如溶剂变色体系）中的分子特性。一些交互作用必须在电子结构级别进行描述。在这项研究中，用于计算激发能的换向器用于推导一阶相互作用空间（FOIS），以描述对溶质激发的环境响应。通过二阶扰动理论求解了溶剂溶质团簇的FOIS波函数。对激发能的贡献被分解成每种相互作用和每种溶剂。

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期刊名称 Wiley-Blackwell Online Open
作者
Jun-ya Hasegawa; Kazuma Yanai; Kazuya Ishimura;
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年(卷),期 -1(16),2
年度 -1
页码 305–311
总页数 7
原文格式 PDF
正文语种
中图分类
关键词
decomposition analysis dispersion effects excited states polarization effects solute–solvent clusters;

机译：分解分析;色散效应;激发态;极化效应;溶质-溶剂团簇;

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专利

1. Quantum Mechanical Molecular Interactions for Calculating the Excitation Energy in Molecular Environments: A First-Order Interacting Space Approach [J] . Hasegawa Jun-ya, Yanai Kazuma, Ishimura Kazuya Chemphyschem: A European journal of chemical physics and physical chemistry . 2015,第2期

机译：用于计算分子环境中激发能的量子力学分子相互作用：一阶相互作用空间法
2. First-Order Interacting Space Approach to Excited-State Molecular Interaction: Solvatochromic Shift of p-Coumaric Acid and Retinal Schiff Base [J] . Yanai Kazuma, Ishimura Kazuya, Nakayama Akira, Journal of chemical theory and computation: JCTC . 2018,第7期

机译：兴奋状态分子相互作用的一阶交互空间方法：对P-香豆酸和视网膜席克群的溶血度变化
3. Calculating solution redox free energies with ab initio quantum mechanical/molecular mechanical minimum free energy path method [J] . Xiancheng Zeng, Hao Hu, Xiangqian Hu, The Journal of Chemical Physics . 2009,第16期

机译：从头算量子力学/分子力学最小自由能路径法计算溶液氧化还原自由能
4. How the Molecular Environment Controls Excitation Energy Transfer and Light Harvesting: a Quantum Mechanical Model [C] . Benedetta Mennucci, Carles Curutchet, Roberto Cammi, International Conference of Computational Methods in Sciences and Engineering 2007(ICCMSE 2007); 20070925-30; Corfu(GR) . 2007

机译：分子环境如何控制激发能传递和光收集：量子力学模型
5. Mechanism of DNA Cytosine Methylation Determined by Ab Initio Quantum Mechanical/Molecular Mechanical-Molecular Dynamics Approach. [D] . Yang, Jin. 2014

机译：从头算量子力学/分子力学-分子动力学方法确定DNA胞嘧啶甲基化的机理。
6. Calculating solution redox free energies with ab initio quantum mechanical∕molecular mechanical minimum free energy path method [O] . Xiancheng Zeng, Hao Hu, Xiangqian Hu, -1

机译：从头算量子力学-分子力学最小自由能路径法计算溶液氧化还原自由能
7. Quantum mechanical molecular interactions for calculating the excitation energy in molecular environments : a first-order interacting space approach [O] . Hasegawa, Jun-ya, Yanai, Kazuma, Ishimura, Kazuya 2015

机译：用于计算分子环境中激发能的量子力学分子相互作用：一阶相互作用空间方法
8. Theoretical study of ion/macrocycle interactions using both hybrid quantum mechanical-molecular mechanical and ab initio methods [R] . Thompson, MA, Glendening, ED, Feller, D, 1995

机译：用混合量子力学 - 分子力学和从头算方法研究离子/大环相互作用的理论研究

Quantum Mechanical Molecular Interactions for Calculating the Excitation Energy in Molecular Environments: A First-Order Interacting Space Approach

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