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Professor
Paper Publications
- [1]One-Step Carbonyl-Locking Strategy for Multi-Resonance Emitters Enabling Efficient, Narrowband Blue OLEDs.Angewandte Chemie-International Edition.2025
- [2]One-Step Phosphine-Oxide Post-Modification of Multi-Resonance Emitters for Efficient, Narrowband, Quenching-Resistant OLEDs.Angewandte Chemie-International Edition.2025
- [3]Pure-Green Circularly Polarized Multiple Resonance Thermally Activated Delayed Fluorescence Enantiomers with Discontinuous Fused Benzene Rings.Advanced Materials.2025
- [4]Accelerating the spin–flip process of multi-resonance emitters via an advanced nitrogen group heavy atom strategy.Materials Chemistry Frontiers.2025,9(13):2054–2065
- [5]Synergetic Multiple Charge-Transfer Excited States for Anti-Quenching and Rapid Spin-Flip Multi-Resonance Thermally Activated Delayed Fluorescence Emitter.Advanced Materials.2025,37(21):2500269
- [6]Ultra-Narrowband Organic Electroluminescence with External Quantum Efficiency of 40% from Indolocarbazole-Embedded Multiple Resonance Emitters.Angewandte Chemie International Edition.2025,64(22):e202504002
- [7]Bipolar Solid-Solution Hosts for Efficient Crystalline Organic Light-Emitting Diodes.ACS Applied Materials & Interfaces.2025,17(5):8084–8094
- [8]Sulfur-locked multiple resonance emitters for high performance orange-red/deep-red OLEDs.Nature Communications.2025,16:332
- [9]Spiro-Carbon-Locking and Sulfur-Embedding Strategy for Constructing Deep-Red Organic Electroluminescent Emitter with High Efficiency.Angewandte Chemie International Edition.2025,64(8):e202420253
- [10]An electrochemically responsive B–O dynamic bond to switch photoluminescence of boron-nitrogen-doped polyaromatics.Nature Communications.2024,15:5166