El Kabbash, M.Rashed, A. R.Sreekanth, K. V.De Luca, A.Infusino, M.Strangi, G.2018-04-122018-04-1220161687-4110http://hdl.handle.net/11693/38268The presence of an excitonic element in close proximity of a plasmonic nanostructure, under certain conditions, may lead to a nonradiative resonant energy transfer known as Exciton Plasmon Resonant Energy Transfer (EPRET) process. The exciton-plasmon coupling and dynamics have been intensely studied in the last decade; still many relevant aspects need more in-depth studies. Understanding such phenomenon is not only important from fundamental viewpoint, but also essential to unlock many promising applications. In this review we investigate the plasmon-exciton resonant energy transfer in different hybrid systems at the nano- and mesoscales, in order to gain further understanding of such processes across scales and pave the way towards active plasmonic devices.EnglishEnergy transferExcitonsHybrid systemsActive plasmonicClose proximityIn-depth studyMeso scaleNon-radiativePlasmon couplingPlasmonic nanostructuresResonant energy transferPlasmonsReview10.1155/2016/48190401687-4129