International Conference on Simulation of Photochemical and Photophysical Processes (ICSPPP - 26)

This session will explore recent developments in time-dependent density functional theory (TDDFT) and its applications in simulating excited state dynamics. Contributions highlighting novel methodologies and computational techniques are particularly encouraged.

This track focuses on the theoretical and computational approaches to understanding non-adiabatic transitions and conical intersections in photochemical processes. Researchers are invited to present their findings on the implications of these phenomena in molecular dynamics.

This session will delve into the quantum mechanical descriptions of light-matter interactions, emphasizing the role of quantum dynamics in photophysical processes. Presentations on innovative simulation techniques and experimental validations are welcome.

This track aims to discuss the latest advancements in molecular spectroscopy related to electronic excitation phenomena. Contributions that bridge theoretical predictions with experimental results are highly encouraged.

This session will highlight the application of ultrafast spectroscopy techniques in studying photochemical reactions. Researchers are invited to share insights on how these techniques enhance our understanding of reaction pathways and dynamics.

This track focuses on the use of ab initio methods for simulating photochemical processes, emphasizing the accuracy and predictive power of these approaches. Presentations on novel computational strategies and their applications are encouraged.

This session will explore the intersection of computational photonics and photochemical processes, focusing on the modeling of light interactions with matter. Contributions that demonstrate practical applications of computational techniques in photonics are welcome.

This track will cover theoretical frameworks and computational methods for modeling excited states and their dynamics. Researchers are invited to present their work on the implications of excited state behavior in various chemical systems.

This session will investigate the mechanisms of radiationless decay in photochemical reactions, focusing on theoretical insights and computational studies. Contributions that elucidate the role of these mechanisms in reaction efficiency are encouraged.

This track will focus on the use of quantum chemical simulations to elucidate reaction pathways in photochemical processes. Researchers are invited to share their findings on the role of quantum effects in determining reaction outcomes.

This session will highlight innovative molecular modeling techniques that enhance our understanding of photophysical processes. Contributions that showcase new methodologies and their applications in theoretical chemistry are particularly welcome.