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Control of Circularly Polarized Electroluminescence in Induced Twist Structure of Conjugate Polymer
Author(s) -
Lee DongMyung,
Song JinWook,
Lee YuJin,
Yu ChangJae,
Kim JaeHoon
Publication year - 2017
Publication title -
advanced materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.707
H-Index - 527
eISSN - 1521-4095
pISSN - 0935-9648
DOI - 10.1002/adma.201700907
Subject(s) - materials science , electroluminescence , circular polarization , photoluminescence , stacking , conjugated system , birefringence , polymer , optoelectronics , dopant , twist , degree of polarization , polarization (electrochemistry) , light emitting diode , molecular physics , optics , doping , nanotechnology , composite material , physics , nuclear magnetic resonance , layer (electronics) , chemistry , geometry , mathematics , scattering , microstrip
An extremely high degree of circularly polarized photoluminescence (CPPL) and electroluminescence (CPEL) (dissymmetry factor values: | g PL | = 0.72 and | g EL | = 1.13) are generated from twisted stacking of achiral conjugated polymer induced by nonemitting chiral dopant of high helical twisting power for the first time. Using a theoretical analysis incorporating the Stokes parameter, the twisting angle and birefringence of the aligned conjugated polymer, and the degree of linear polarization in the emitted light are found to make a roughly equal contribution to the degree of CPEL as to the degree of CPPL. Moreover, it is also found that the location of the recombination zone within the emitting layer is a crucial parameter for determining the difference in the dissymmetry factor between CPEL and CPPL. This result is applied to an organic light‐emitting display to improve the luminous efficiency by 60%.