Correction for 'Crystalline matrix-activated spin-forbidden transitions of engineered organic crystals' by Heming Zhang , , 2023, , 11102-11110, DOI: https://doi.org/10.1039/d3cp00187c.
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Correction: Crystalline matrix-activated spin-forbidden transitions of engineered organic crystals.
Phys Chem Chem Phys
May 2023
Jilin University, 2699 Qianjin Street, Changchun, Jilin Province, China.
Correction for 'Crystalline matrix-activated spin-forbidden transitions of engineered organic crystals' by Heming Zhang , , 2023, , 11102-11110, DOI: https://doi.org/10.1039/d3cp00187c.
View Article and Find Full Text PDFCrystalline matrix-activated spin-forbidden transitions of engineered organic crystals.
Phys Chem Chem Phys
April 2023
Jilin University, 2699 Qianjin street, Changchun, Jilin Province, China.
Spin-forbidden excitation is an efficient way to obtain triplet excitons directly from the ground state of organic semiconductors. According to perturbation theory under the framework of Fermi's golden rule, this process requires spin-orbit coupling (SOC) and the transition dipole moment (TDM) to be combined through an intermediate state that mixes the initial and final states. While previous research has focused mostly on enhancing SOC, little attention has been paid to engineering the coupling between SOC and the TDM in organic materials.
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