Impact of Surrounding Environment on Hot‐Exciton Based Organic Emitters for TADF Applications

Abstract: Understanding thermally activated delayed fluorescence (TADF) in solid‐state environments is crucial for practical applications. However, limited research focuses on how the medium affects TADF properties of hot‐exciton‐based emitters. In our study, we calculated and compared reverse intersystem crossing, radiative, and non‐radiative decay rates of TADF emitters in gas, solvent, and solid phases. The designed emitters have a donor‐acceptor‐donor (D‐A‐D) structure, with donors such as triphenylamine (TPA) and d… Show more

“…[1][2][3] However, it is noted that TADF materials are undoubtedly affected by oxygen, which makes them unsuitable for biological imaging in time. 4,5 Besides, up to now, nearly all RTP materials contain high-cost rare earth elements 6,7 or cytotoxic aromatic building blocks. [8][9][10] These disadvantages immensely limit the application of TADF and RTP materials in biological imaging.…”

Aliphatic hyperbranched polyphosphate: a novel multicolor RTP material with AIE character

“…[1][2][3] However, it is noted that TADF materials are undoubtedly affected by oxygen, which makes them unsuitable for biological imaging in time. 4,5 Besides, up to now, nearly all RTP materials contain high-cost rare earth elements 6,7 or cytotoxic aromatic building blocks. [8][9][10] These disadvantages immensely limit the application of TADF and RTP materials in biological imaging.…”

Aliphatic hyperbranched polyphosphate: a novel multicolor RTP material with AIE character