Polarizable Multiscale Dynamics for probing solvent and complex environments
Abstract
Computational modelling approaches have been developed in the last decades to account for environment effects that can remarkably affect the spectroscopic features of organic dyes. With modern computing power, complex systems can be handled through hybrid QM/MM (Quantum Mechanics/Molecular Mechanics) simulations, which are nowadays commonly used to assist experiments in many different fields. We present here some of the latest advances made in our laboratory to develop and apply a Polarizable Embedding QM/MM based molecular dynamics methodology, and discussing applications where it is found useful. Then we report on the spectroscopic study of a ligand protein complex system, together with our perspective on the modelling of reactions in extreme conditions, illustrating our recent study on thermal Diels-Alder.