International Conference on Supramolecular Interactions and Modeling (ICSMIM - 26)

This track focuses on the latest developments in supramolecular chemistry, emphasizing the design and synthesis of complex molecular architectures. Discussions will include innovative approaches to molecular recognition and host-guest systems.

This session will explore theoretical frameworks and computational methods used to understand noncovalent interactions, including hydrogen bonding and van der Waals forces. Participants will present models that elucidate the role of these interactions in supramolecular systems.

Focusing on the principles of molecular recognition, this track will examine the interactions that govern selective binding between molecules. Contributions will highlight experimental and theoretical insights into guest binding affinity and specificity.

This session will delve into computational techniques and molecular modeling strategies for the design of supramolecular structures. Topics will include docking simulations and the prediction of binding energies in host-guest systems.

This track will investigate the principles and mechanisms of self-assembly in supramolecular chemistry. Presentations will cover the thermodynamic and kinetic factors that influence the formation of nanostructures.

This session will focus on the application of supramolecular interactions in chemical sensing technologies. Researchers will discuss the design of sensors that utilize noncovalent interactions for selective detection of analytes.

This track will explore the significance of hydrogen bonding in the stabilization and functionality of supramolecular assemblies. Contributions will include both theoretical analyses and experimental studies.

This session will address the design and application of nanostructures derived from supramolecular chemistry. Topics will include their roles in drug delivery, catalysis, and materials science.

Focusing on the relationship between molecular architecture and functionality, this track will examine how structural design influences the properties of supramolecular systems. Discussions will include case studies and theoretical predictions.

This session will highlight cutting-edge techniques in molecular modeling relevant to supramolecular interactions. Participants will present advancements in simulation methods and their applications in understanding complex chemical systems.

This track will investigate the role of ?-? stacking interactions in supramolecular chemistry. Presentations will cover theoretical insights and experimental findings related to the stability and reactivity of ?-stacked systems.