Ultrafast photo-induced processes in complex environments: The role of accuracy in excited-state energy potentials and initial conditions

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2022-06-01 DOI:10.1063/5.0085512
A. Petrone, F. Perrella, Federico Coppola, Luigi Crisci, Greta Donati, P. Cimino, N. Rega
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引用次数: 4

Abstract

Light induces non-equilibrium time evolving molecular phenomena. The computational modeling of photo-induced processes in large systems, embedded in complex environments (i.e., solutions, proteins, materials), demands for a quantum and statistical mechanic treatment to achieve the required accuracy in the description of both the excited-state energy potentials and the choice of the initial conditions for dynamical simulations. On the other hand, the theoretical investigation on the atomistic scale of times and sizes of the ultrafast photo-induced reactivity and non-equilibrium relaxation dynamics right upon excitation requests tailored computational protocols. These methods often exploit hierarchic computation schemes, where a large part of the degrees of freedom are required to be treated explicitly to achieve the right accuracy. Additionally, part of the explicit system needs to be treated at ab initio level, where density functional theory, using hybrid functionals, represents a good compromise between accuracy and computational cost, when proton transfers, non-covalent interactions, and hydrogen bond dynamics play important roles. Thus, the modeling strategies presented in this review stress the importance of hierarchical quantum/molecular mechanics with effective non-periodic boundary conditions and efficient phase-sampling schemes to achieve chemical accuracy in ultrafast time-resolved spectroscopy and photo-induced phenomena. These approaches can allow explicit and accurate treatment of molecule/environment interactions, including also the electrostatic and dispersion forces of the bulk. At the same time, the specificities of the different case studies of photo-induced phenomena in solutions and biological environments are highlighted and discussed, with special attention to the computational and modeling challenges.
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复杂环境下的超快光诱导过程:精度在激发态能势和初始条件中的作用
光诱导非平衡时间演化的分子现象。在复杂环境(即溶液,蛋白质,材料)中嵌入的大型系统中光诱导过程的计算建模需要量子和统计力学处理,以在激发态能量势的描述和动态模拟初始条件的选择方面达到所需的准确性。另一方面,对超快光诱导反应性和激发后非平衡弛豫动力学的原子时间尺度和大小的理论研究需要定制的计算协议。这些方法通常利用层次计算方案,其中需要显式处理很大一部分自由度以获得正确的精度。此外,部分显式系统需要从头开始处理,当质子转移、非共价相互作用和氢键动力学起重要作用时,使用混合泛函的密度泛函理论代表了精度和计算成本之间的良好折衷。因此,本文提出的建模策略强调了具有有效的非周期边界条件和有效的相位采样方案的分层量子/分子力学的重要性,以实现超快时间分辨光谱和光致现象的化学精度。这些方法可以明确和准确地处理分子/环境相互作用,包括体积的静电和分散力。同时,强调和讨论了溶液和生物环境中光致现象的不同案例研究的特殊性,并特别关注计算和建模方面的挑战。
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