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W2898401022 abstract "Summary Triplet excited states (triplets) serve as key intermediates in critical technologies and processes ranging from organic synthesis to biomedicine to molecular electronics. Production of triplets of π-conjugated organic molecules without heavy atoms remains challenging. Spin-orbit, charge-transfer intersystem crossing (SOCT-ISC) directly converts singlet charge-separated states to triplets in an electron donor-acceptor (D-A) pair. Here, using a series of orthogonal D-A type boron dipyrromethene (BODIPY) derivatives as a model system, we show that the formation of triplets is largely controlled by the spin-allowed transitions rather than by SOCT-ISC. Yet, the SOCT-ISC process can still proceed much faster than ordinary ISC between (π, π*) states because the spin-orbit coupling of SOCT-ISC is 2 orders of magnitude stronger. We further show that such a process can produce triplets in a non-triplet-forming molecule, perylene. Our findings reveal a clear physical basis for this spin-forbidden process and provide guidelines for future molecular designs exploiting the process." @default.
W2898401022 created "2018-11-02" @default.
W2898401022 creator A5004696641 @default.
W2898401022 creator A5011938448 @default.
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W2898401022 creator A5083226019 @default.
W2898401022 date "2019-01-01" @default.
W2898401022 modified "2023-10-10" @default.
W2898401022 title "Spin-Allowed Transitions Control the Formation of Triplet Excited States in Orthogonal Donor-Acceptor Dyads" @default.
W2898401022 cites W1668566020 @default.
W2898401022 cites W1751664598 @default.
W2898401022 cites W1964637764 @default.
W2898401022 cites W1966624508 @default.
W2898401022 cites W1969097712 @default.
W2898401022 cites W1971092996 @default.
W2898401022 cites W1971499243 @default.
W2898401022 cites W1974446559 @default.
W2898401022 cites W1978922517 @default.
W2898401022 cites W1988294219 @default.
W2898401022 cites W1989384815 @default.
W2898401022 cites W1991192698 @default.
W2898401022 cites W1992262102 @default.
W2898401022 cites W1992526463 @default.
W2898401022 cites W1995016599 @default.
W2898401022 cites W1997855068 @default.
W2898401022 cites W2000798385 @default.
W2898401022 cites W2001270915 @default.
W2898401022 cites W2007887895 @default.
W2898401022 cites W2012761071 @default.
W2898401022 cites W2017258860 @default.
W2898401022 cites W2018941284 @default.
W2898401022 cites W2023967717 @default.
W2898401022 cites W2024795845 @default.
W2898401022 cites W2025439108 @default.
W2898401022 cites W2026172453 @default.
W2898401022 cites W2028378507 @default.
W2898401022 cites W2029368621 @default.
W2898401022 cites W2034862732 @default.
W2898401022 cites W2035692942 @default.
W2898401022 cites W2042617647 @default.
W2898401022 cites W2045769727 @default.
W2898401022 cites W2046133238 @default.
W2898401022 cites W2046411531 @default.
W2898401022 cites W2052513034 @default.
W2898401022 cites W2054719244 @default.
W2898401022 cites W2054769800 @default.
W2898401022 cites W2059126601 @default.
W2898401022 cites W2059860200 @default.
W2898401022 cites W2062852634 @default.
W2898401022 cites W2063302169 @default.
W2898401022 cites W2067428544 @default.
W2898401022 cites W2072255186 @default.
W2898401022 cites W2073006389 @default.
W2898401022 cites W2079844840 @default.
W2898401022 cites W2082884059 @default.
W2898401022 cites W2090493368 @default.
W2898401022 cites W2092214053 @default.
W2898401022 cites W2094866017 @default.
W2898401022 cites W2095472229 @default.
W2898401022 cites W2105957140 @default.
W2898401022 cites W2129248052 @default.
W2898401022 cites W2137416316 @default.
W2898401022 cites W2144149256 @default.
W2898401022 cites W2155751707 @default.
W2898401022 cites W2163786434 @default.
W2898401022 cites W2173517604 @default.
W2898401022 cites W2265996850 @default.
W2898401022 cites W2331206711 @default.
W2898401022 cites W2528478704 @default.
W2898401022 cites W2560104018 @default.
W2898401022 cites W2588888327 @default.
W2898401022 cites W2606257843 @default.
W2898401022 cites W2749158098 @default.
W2898401022 cites W2750834677 @default.
W2898401022 cites W2782950075 @default.
W2898401022 cites W2783406844 @default.
W2898401022 cites W2794844603 @default.
W2898401022 cites W2951971590 @default.
W2898401022 doi "https://doi.org/10.1016/j.chempr.2018.10.001" @default.
W2898401022 hasPublicationYear "2019" @default.
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