The Development of the QM/MM Interface and Its Application for the on-the-fly QM/MM Nonadiabatic Dynamics in JADE Package: Theory, Implementation and Applications

18 March 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Understanding the nonadiabatic dynamics of complex systems is a challenging task in computational photochemistry. Herein, we present an efficient and user-friendly quantum mechanics/molecular mechanics (QM/MM) interface to run on-the-fly nonadiabatic dynamics. Currently, this interface consists of an independent set of codes designed for general-purpose use. Herein, we demonstrate the ability and feasibility of the QM/MM interface by integrating it with our long-term developed JADE package. Tailored to handle nonadiabatic processes in various complex systems, especially condensed phases and protein environments, we delve into the theories, implementations, and applications of the on-the-fly QM/MM nonadiabatic dynamics. The QM/MM approach is established within the framework of the additive QM/MM scheme, employing electrostatic embedding, link-atom inclusion, and charge-redistribution schemes to treat the QM/MM boundary. Trajectory surface-hopping dynamics are facilitated using the fewest switches algorithm, encompassing classical and quantum treatments for nuclear and electronic motions, respectively. Finally, we report simulations of nonadiabatic dynamics for two typical systems: azomethane in water and the retinal chromophore PSB3 in a protein environment. Our results not only illustrate the power of the QM/MM program but also reveal the important roles of environmental factors in nonadiabatic processes.

Keywords

QM/MM
on-the-fly
surface hopping
nonadiabatic dynamics

Supplementary materials

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Title
The Development of the QM/MM Interface and Its Application for the on-the-fly QM/MM Nonadiabatic Dynamics in JADE Package: Theory, Implementation and Applications
Description
QM/MM implementation details; Computational details of the two application systems; and results that complement those presented in the article.
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