水准点(测量)
一致性(知识库)
钥匙(锁)
还原(数学)
计算机科学
财产(哲学)
工作(物理)
内部一致性
算法
数学优化
数据挖掘
度量(数据仓库)
可靠性工程
计算机工程
作者
Jean-Pierre Tchapet Njafa,Elvira Vanelle Kameni Tcheuffa,Aissatou Maghame Foumkpou,S. G. Nana Engo
标识
DOI:10.1021/acs.jcim.5c02978
摘要
We validate semiempirical sTDA-xTB and sTD-DFT-xTB methods for high-throughput screening of thermally activated delayed fluorescence (TADF) emitters using 747 experimentally characterized molecules─the largest such benchmark to date. Our framework achieves >99% computational cost reduction versus TD-DFT while maintaining strong internal consistency (Pearson r ≈ 0.82) and reasonable agreement with 312 experimental singlet–triplet gaps (MAE ≈ 0.17 eV). Large-scale analysis statistically validates key design principles: D-A-D architectures outperform other motifs, and optimal torsional angles of 50 ° –90 ° maximize TADF efficiency, while PCA confirms a low-dimensional property space. This work establishes xTB methods as cost-effective tools for accelerating TADF discovery.
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