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基态和激发态(S)下的苯甲醚-水和苯甲醚-氨络合物:多组态对称适配微扰理论(SAPT)研究

Anisole-Water and Anisole-Ammonia Complexes in Ground and Excited (S) States: A Multiconfigurational Symmetry-Adapted Perturbation Theory (SAPT) Study.

作者信息

Krzemińska Agnieszka, Biczysko Malgorzata, Pernal Katarzyna, Hapka Michał

机构信息

Institute of Physics, Lodz University of Technology, ul. Wolczanska 217/221, 93-005 Lodz, Poland.

Faculty of Chemistry, University of Wroclaw, F. Joliot-Curie 14, 50-383 Wroclaw, Poland.

出版信息

J Phys Chem A. 2024 Oct 10;128(40):8816-8824. doi: 10.1021/acs.jpca.4c04928. Epub 2024 Oct 1.

DOI:10.1021/acs.jpca.4c04928
PMID:39352939
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11480881/
Abstract

Binary complexes of anisole have long been considered paradigm systems for studying microsolvation in both the ground and electronically excited states. We report a symmetry-adapted perturbation theory (SAPT) analysis of intermolecular interactions in anisole-water and anisole-ammonia complexes within the framework of the multireference SAPT(CAS) method. Upon the S ← S electronic transition, the hydrogen bond in the anisole-water dimer is weakened, which SAPT(CAS) shows to be determined by changes in the electrostatic energy. As a result, the water complex becomes less stable in the relaxed S state despite decreased Pauli repulsion. Stronger binding of the anisole-ammonia complex following electronic excitation is more nuanced and results from counteracting shifts in the repulsive (exchange) and attractive (electrostatic, induction and dispersion) forces. In particular, we show that the formation of additional binding N-H···π contacts in the relaxed S geometry is possible due to reduced Pauli repulsion in the excited state. The SAPT(CAS) interaction energies have been validated against the coupled cluster (CC) results and experimentally determined shifts of the S ← S anisole band. While for the hydrogen-bonded anisole-water dimer SAPT(CAS) and CC shifts are in excellent agreement, for ammonia SAPT(CAS) is only qualitatively correct.

摘要

长期以来,苯甲醚的二元配合物一直被视为研究基态和电子激发态微溶剂化的范例体系。我们在多参考态对称适配微扰理论(SAPT)(CAS)方法的框架内,对苯甲醚 - 水和苯甲醚 - 氨配合物中的分子间相互作用进行了对称适配微扰理论(SAPT)分析。在S←S电子跃迁过程中,苯甲醚 - 水二聚体中的氢键被削弱,对称适配微扰理论(SAPT)(CAS)表明这是由静电能的变化决定的。因此,尽管泡利排斥减小,但水配合物在弛豫的S态中变得不太稳定。电子激发后苯甲醚 - 氨配合物更强的结合更为微妙,是由排斥力(交换力)和吸引力(静电、诱导和色散力)的抵消性变化导致的。特别是,我们表明,由于激发态中泡利排斥的减小,在弛豫的S几何构型中形成额外的结合N - H···π接触是可能的。对称适配微扰理论(SAPT)(CAS)相互作用能已与耦合簇(CC)结果以及实验测定的S←S苯甲醚谱带位移进行了验证。虽然对于氢键结合的苯甲醚 - 水二聚体,对称适配微扰理论(SAPT)(CAS)和耦合簇(CC)的位移结果非常吻合,但对于氨,对称适配微扰理论(SAPT)(CAS)仅在定性上是正确的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9411/11480881/c0aeb8197d3f/jp4c04928_0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9411/11480881/962bb305b836/jp4c04928_0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9411/11480881/c0aeb8197d3f/jp4c04928_0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9411/11480881/962bb305b836/jp4c04928_0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9411/11480881/c0aeb8197d3f/jp4c04928_0002.jpg

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