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Supramolecular Chemistry: Exploring the Use of Electronic Structure, Molecular Dynamics, and Machine Learning Approaches

Matheus Cachoeira Colaço, Vinícius A. Glitz, A. Jacobs, Vinícius C. Port, Giovanni F. Caramori

2024European Journal of Organic Chemistry26 citationsDOI

Abstract

Abstract This review aims to highlight the role that computational chemistry has played in advancing the supramolecular chemistry field. We demonstrated recent uses of computational methodologies to elucidate noncovalent interactions in various processes occurring in supramolecular systems. We also emphasized the contributions of these techniques to studying reactions within confined space, showing how computational methodologies help clarify the effects of reactivity and conformational locking. Furthermore, we underscore the utilization of Molecular Dynamics (MD) in elucidating dynamical processes, understanding temperature and pressure effects, and exploring conformational space within supramolecular chemistry. Finally, we highlight the impact that the age of machine learning has on computational chemistry, showing how these universal approximators can enhance existing methods, predict properties, and efficiently explore the chemical space encompassed by these complex systems.

Topics & Concepts

ChemistrySupramolecular chemistryMolecular dynamicsNanotechnologyMolecular machineDynamics (music)Computational chemistryChemical physicsOrganic chemistryMoleculePsychologyMaterials sciencePedagogyVarious Chemistry Research TopicsMachine Learning in Materials ScienceComputational Drug Discovery Methods
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