Exciton funneling amplified photoluminescence anisotropy in organic radical-doped microcrystals

Authors :: Yong Sheng Zhao
Chan Qiao
Yongli Yan
Zhonghao Zhou
Jiannian Yao
Source :: Journal of Materials Chemistry C. 10:2551-2555
Publication Year :: 2022
Publisher :: Royal Society of Chemistry (RSC), 2022.
Abstract: We demonstrate a controllable photoluminescence anisotropy amplification in organic luminescent radical-doped microcrystals via exciton funneling. The widely tunable doping ratio resulting from very similar molecular structures between hosts and guests leads to a freely tailorable exciton funneling process, which paves an avenue for the construction of high-performance polarizing optical elements.

Subjects :: Photoluminescence
Materials science
Condensed Matter::Other
business.industry
Exciton
Doping
Physics::Optics
General Chemistry
Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Condensed Matter::Materials Science
Physics::Atomic and Molecular Clusters
Materials Chemistry
Optoelectronics
Anisotropy
Luminescence
business

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