CORDIS Project
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This project develops a new theoretical framework to understand exciton dynamics in materials like organic crystals and two-dimensional perovskites. By applying advanced computational techniques, it aims to enhance exciton transport efficiency through structural modifications, ultimately benefiting applications in opto…
Understanding the energetics and dynamics of excited states formed by light-matter interactions is essential for applications across optoelectronics and photophysics.
In systems of reduced dimensionality, strongly-bound excitons serve as the main energy carriers, with long diffusion and relaxation lifetimes.
As exciton dynamics are coupled to optical selection rules that stem from the atomic structure, enhanced exciton transport efficiency can be achieved through local structural modifications,…
WEIZMANN INSTITUTE OF SCIENCE
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