Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

By A Mystery Man Writer

Sept 22,2024

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

The Swager Group

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

文献高级检索结果

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Midwest Integrated Center for Computational Materials - Publications

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Electroluminescence device characteristics of a TpAT-tFFO-based

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

文献高级检索结果

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Thermally Activated Delayed Photoluminescence: Deterministic Control of Excited-State Decay

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Entropy-driven charge-transfer complexation yields thermally activated delayed fluorescence and highly efficient OLEDs

Efficient Adversarial Generation of Thermally Activated Delayed Fluorescence Molecules