Thermally activated delayed fluorescence materials: innovative design and advanced application in biomedicine, catalysis and electronics DOI Creative Commons
Ehsan Ullah Mughal,

Syeda Fariha Kainat,

Abdulaziz M. Almohyawi

et al.

RSC Advances, Journal Year: 2025, Volume and Issue: 15(10), P. 7383 - 7471

Published: Jan. 1, 2025

Thermally Activated Delayed Fluorescence (TADF) materials have emerged as a revolutionary class of functional compounds, driven by their unique ability to utilize excitons from both singlet and triplet states for efficient fluorescence emission. This manuscript provides an overview recent innovations in TADF material design, focusing on molecular strategies achieve optimal properties, including small singlet-triplet energy gaps (ΔE ST) high photoluminescence quantum yields. We explore the diverse applications materials, spanning OLEDs, biomedical imaging, photosensitizers, photocatalysis, UV photodetectors (UVOPDs), electrogenerated chemiluminescence, triplet-triplet annihilation (TTA) sensitizers, organic hybrid microwire radial heterojunctions, multicolor luminescent micelles, mechano-luminescence (ML), light-emitting electrochemical cells (LEECs), fluorescent probes. The integration these technologies highlights potential enhance performance efficiency. Through this review, we aim elucidate fundamental principles governing behavior present forward-looking perspective synthetic methodologies new, versatile materials.

Language: Английский

Thermally activated delayed fluorescence materials: innovative design and advanced application in biomedicine, catalysis and electronics DOI Creative Commons
Ehsan Ullah Mughal,

Syeda Fariha Kainat,

Abdulaziz M. Almohyawi

et al.

RSC Advances, Journal Year: 2025, Volume and Issue: 15(10), P. 7383 - 7471

Published: Jan. 1, 2025

Thermally Activated Delayed Fluorescence (TADF) materials have emerged as a revolutionary class of functional compounds, driven by their unique ability to utilize excitons from both singlet and triplet states for efficient fluorescence emission. This manuscript provides an overview recent innovations in TADF material design, focusing on molecular strategies achieve optimal properties, including small singlet-triplet energy gaps (ΔE ST) high photoluminescence quantum yields. We explore the diverse applications materials, spanning OLEDs, biomedical imaging, photosensitizers, photocatalysis, UV photodetectors (UVOPDs), electrogenerated chemiluminescence, triplet-triplet annihilation (TTA) sensitizers, organic hybrid microwire radial heterojunctions, multicolor luminescent micelles, mechano-luminescence (ML), light-emitting electrochemical cells (LEECs), fluorescent probes. The integration these technologies highlights potential enhance performance efficiency. Through this review, we aim elucidate fundamental principles governing behavior present forward-looking perspective synthetic methodologies new, versatile materials.

Language: Английский

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