Energy transfer-mediated white light emission from Nile red-doped 9,10-diphenylanthracene nanoaggregates upon excitation with near UV light

Abstract: The excitonic blue emission, excimeric green emission and energy transfer-mediated red emission of Nile red lead to bright white light emission upon the photoexcitation of Nile red-doped DPA nanoaggregates.

“…19 However, many multicomponent PL systems possess intra-or intermolecular energy transfer (ET) mechanisms such as Fluorescence Resonance Energy Transfer (FRET). 11,13,14,20,21 Accounting for ET processes makes applying colour-mixing theory a challenge since ET differs from system to system. However, what if ET processes were mitigated or suppressed?…”

Shedding light on predicting and controlling emission chromaticity in multicomponent photoluminescent systems

“…19 However, many multicomponent PL systems possess intra-or intermolecular energy transfer (ET) mechanisms such as Fluorescence Resonance Energy Transfer (FRET). 11,13,14,20,21 Accounting for ET processes makes applying colour-mixing theory a challenge since ET differs from system to system. However, what if ET processes were mitigated or suppressed?…”

Shedding light on predicting and controlling emission chromaticity in multicomponent photoluminescent systems

Comparative studies of photophysics and exciton dynamics of different diphenylanthracene (DPA) nanoaggregates

Role of nanosize and defect trapping upon singlet fission yield and singlet fission dynamics of 1,6-Diphenyl-1,3,5-hexatriene nanoaggregates