Strong light-matter coupling generates hybrid states that inherit properties of both light and matter, effectively allowing the modification of the molecular potential energy landscape. This phenomenon opens up a plethora of options for manipulating the properties of molecules, with a broad range of applications in physics, chemistry, and materials science. In this presentation, I will discuss how the relaxation between hybrid light-matter states and molecular centered states can be used to in molecular based devices. Specifically on the possibility to efficiently harvest excitation energy in planar heterojunctions by utilizing the delocalized nature of hybrid light-matter states.
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