Room-temperature Bose–Einstein condensates (BECs) of exciton polaritons have been
realized in organic molecular systems owing to strong light–matter interaction, strong exciton
binding energy, and low effective mass of a polaritonic particle. These molecular-exciton-
polariton BECs have demonstrated their potential in nonlinear optics and optoelectronic
applications. In this study, we first demonstrate that molecular-polariton BECs can be utilized
for Bose enhancement of excitation-energy transfer (EET) in a molecular system with an …

Abstract Room-temperature Bose--Einstein condensates (BECs) of exciton polaritons have
been realized in organic molecular systems owing to the strong light--matter interaction,
strong exciton binding energy, and low effective mass of a polaritonic particle. These
molecular-exciton-polariton BECs have demonstrated their potential in nonlinear optics and
optoelectronic applications. In this study, we demonstrate that molecular-polariton BECs can
be utilized for Bose enhancement of excitation-energy transfer (EET) in a molecular system …