Substituent-modulated excited-state dynamics and solvent-sensitized nanosecond triplet harvesting in donor–acceptor TADF emitters | Synapse
June 14, 2026
Substituent-modulated excited-state dynamics and solvent-sensitized nanosecond triplet harvesting in donor–acceptor TADF emitters
Key Points
This research aims to explore how modifications to molecular structures impact triplet harvesting efficiency using the TADF mechanism.
Examined molecular structures of donor-acceptor TADF emitters
Analyzed excited-state dynamics and triplet harvesting effectiveness
Utilized solvent environments to assess their influence on TADF performance.
Demonstrated improved triplet harvesting efficiency with specific molecular substitutions
Identified particular solvent conditions that enhance TADF emitter performance
Showed significant variations in excited-state dynamics corresponding to structural changes.
Abstract
Extensive research has focused on modifying molecular structures to harvest triplets efficiently through the thermally activated delayed fluorescence (TADF) mechanism.