Data-Driven Design Rules for TADF Emitters from a High-Throughput Screening of 747 Molecules
Abstract
TADF emitter performance depends on both thermodynamic and kinetic factors. We analyze 747 experimentally known TADF molecules computationally to extract quantitative design guidelines. Using a validated xTB-based workflow, we examine how architecture, geometry, and electronic structure affect photophysical properties. Among architectures, D-A-D frameworks achieve the smallest δest. A favorable torsional angle of 50-90 balances small EST with the spin--orbit coupling needed for reverse intersystem crossing. Clustering separates high-performance candidates and highlights multi-resonance emitters for blue emission. From these results, we identify 127 candidates with predicted EST < 0.1 eV and oscillator strength f > 0.1. These HTVS-derived design guidelines and candidates can guide future TADF emitter development.
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