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2024

134. Yuanxin Ma, Jiaxue Ma, Puyuan Wang, Jixiu Niu, Jing Zhang*, Chunbo Duan, Shuo Chen, Chunmiao Han, Hui Xu*. Allochroic cluster light-emitting diodes based on unique μ3-tetraphosphine Cu3X3 crowns with tunable excited states. Science Advances 2024, 10, eadk3983.

2023

133. Xiaojun  Zhang, Hui Xu.* Electroluminescent Clusters. Angew. Chem. Int. Ed. 2023, e202319597.

132. Peng Ma, Yingying Chen, Yi Man, Quan Qi, Yuanting Guo, Huiqin Wang, Zhe Li, Peng Chang, Chao Qu, Chunmiao Han,* and Hui Xu.* High-Efficiency Ultraviolet Electroluminescence from Multi-Resonance Phosphine Oxide Polycyclic Aromatics. Angew. Chem. Int. Ed. 2023, e202316479.

131. Zicheng Wang,  Yi Man,  Chunying Zhang,  Yudong Pang,  Ying Wei*,  Jing Zhang,  Chen Shuo,  Chunbo Duan,  Chunmiao Han,  Chenhui Cao,  Xinfeng Shui,  Hui Xu*. Asymmetric Ternary Spiro Phosphine Oxide Hosts for Yellow Thermally Activated Delayed Fluorescence Diodes with External Quantum Efficiency Beyond 30%. Adv. Optical Mater. 2023, 2302046.

130. Anqi Zhu, Ying Li, Yi Man, Yudong Pang, Chunbo Duan, Chunmiao Han, Jing Zhang, Chenhui Cao, Ying Wei,* Xinfeng Shui and Hui Xu*. Phosphorylation amplified asymmetry of spiro[acridine-9,9' -xanthene] hosts for efficient blue and white thermal activated delay fluorescent diodes. Journal of Materials Chemistry C 2023, 11, 14119.

129. Xingchen Yang, Zhaoqin Zhou, Yi Man, Hui Xu*, Dan Zhang*. Optical Properties of Neodymium-Doped Polymer Optical Waveguides Based on Light-Emitting Diode Pumping. Chinese Journal of Lasers, 2023, 50(6): 0601002.

128. Ying Xin, Yonglin Zhu, Ruixin Chi, Chunbo Duan*, Pengfei Yan*, Chunmiao Han and Hui Xu*. Phosphine Oxide-Balanced Intra- and Inter-Chain Through-Space Charge Transfer in Thermally Activated Delayed Fluorescence Polymers: beyond 30% External Quantum Efficiency. Adv. Mater. 2023, 35, 2304103.

127. Ying Li, Xianfa Zhang, Yi Man, Shiwei Xu, Jing Zhang, Guangming Zhang, Shuo Chen, Chunbo Duan, Chunmiao Han and Hui Xu*. Interfacial Passivation Enormously EnhancesElectroluminescence of Triphenylphosphine Cu4I4 Cube. Adv. Mater. 2023, 202302984.

126. Jibiao Jin, Chunbo Duan, He Jiang, Peng Tao,* Hui Xu,* Wai-Yeung Wong.* Integrating Asymmetric O−B−N Unit in Multi-Resonance Thermally Activated Delayed Fluorescence Emitters towards High-Performance Deep-Blue Organic Light-Emitting Diodes. Angew. Chem. Int. Ed. 2023, 62,  e202218947.

125. Nan Zhang, LeiQu, Shuheng Dai, Guohua Xie, Chunmiao Han, Jing Zhang, RanHuo, Huan Hu, Qiushui Chen,* We iHuang, Hui Xu.* Intramolecular charge transfer enables highly-efficient X-ray luminescence in cluster scintillators. Nature Communications, 2023, 14, 2901.

124. NanZhang, Ying Li, Sanyang Han, Ying Wei, Huan Hu, Ran Huo, Chunbo Duan, Jing Zhang, Chunmiao Han, Guohua Xie,*and Hui Xu*. Cluster Light-Emitting Diodes Containing Copper Iodine Cube with 100% Exciton Utilization Using Host–Cluster Synergy. Angew. Chem. Int. Ed. 2023,  e202305018.

123. Xiaoqing Song, Guang Lu, Yi Man, Jing Zhang, Shuo Chen, Chunmiao Han and Hui Xu.* Phosphine-Manipulated p-π and π-π Synergy Enables Efficient Ultralong Organic Room-Temperature Phosphorescence. Angew. Chem. Int. Ed. 2023, e202300980.

122. Zhuliang Lin† , Yi Man† , Ziyue Lv, Baoping Zhang, Hui Xu*, Daquan Yu, Xingchen Yang, Yan He, Xiaowu Shi, Leiying Ying, and Dan Zhang.* High-Gain of NdIII Complex Doped Optical Waveguide Amplifiers at 1.06 and 1.31 μm Wavelengths Based on Intramolecular Energy Transfer Mechanism. Adv. Mater. 2023, 2209239.

121. Chao Qu, Huiqin Wang, Yi Man, Zhe Li, Peng Ma, Peng Chang, Xin Li, Chunmiao Han*, Yudong Pang, Hui Xu*. Asymmetric intramolecular charge transfer enables highly efficient red thermally activated delayed fluorescent emitters. Chemical Engineering Journal 2023, 457, 141061.

2022

120. Zhuke Gong, Hui Xu*. Crystalline Carbazole Based Organic Room-Temperature Phosphorescent Materials. Progress in Chemistry, 2022, 34(11): 2432-2461.

119. Jing Zhang,Jianan Sun,Yuanxin Ma,Chunmiao Han,Dongxue Ding,Ying Wei*,Hui Xu*,  Multiplying Phosphine-Oxide Orientation to Enable Ultralow-Voltage-Driving Simple White Thermally Activated Delayed Fluorescence Diodes with Power Efficiency over 100 lm W−1, Advanced Functional Materials, 2022, 32, 2209163.

118. Dongxue Ding†, Zicheng Wang†, Chunbo Duan, Chunmiao Han,  Jing Zhang, Shuo Chen, Ying Wei*, and Hui Xu.* White Fluorescent Organic Light-Emitting Diodes with 100% Power Conversion. Research, 2022, DOI: 10.34133/research.0009.

117. Zhang Nan, Qu Lei , Hu Huan, Huo Ran, Meng Yushan, Duan Chunbo, Zhang Jing*, Han Chunmiao, Xie Guohua*,  Xu Hui*. Sky Blue and Yellow Cluster Light-Emitting Diodes Based on Asymmetric Cu4I4 Nanocubes. Research, 2022, DOI: 10.34133/research.0005.

116. Jiteng Ni, Chunlei Zhong, Liyuan Li, Mengxue Su, Xinran Wang, Jianan Sun*, Shuo Chen, Chunbo Duan, Chunmiao Han, and Hui Xu*. Deep-Blue Electroluminescence from Phosphine-Stabilized Au3 Triangles and Au3Ag Pyramids. Angew. Chem. Int. Ed. 2022, e202213826.

115. Huiqin Wang, Bingjie Zhao, Chao Qu, Chunbo Duan, Zhe Li, Peng Ma, Peng Chang, Chunmiao Han*, Hui Xu*. 2,3-Dicyanopyrazino phenanthroline enhanced charge transfer for efficient near-infrared thermally activated delayed fluorescent diodes. Chemical Engineering Journal 2022, 436, 135080.

114. Jinkun Bian, Su Chen, Lili Qiu, Nan Zhang, Jing Zhang, Chunbo Duan, Chunmiao Han, and Hui Xu*. Synergetic Insulation and Induction Effects Selectively Optimize Multiresonance Thermally Activated Delayed Fluorescence. Research, 2022, doi.org/10.34133/2022/9838120.

113. Shuo Chen, Chengming Zhang, Hui Xu*. Recent advances in blue electroluminescent materials based on triplet conversion. China Science Paper. 2022,17(4), 355-363.

112. Nan Zhang, Huan Hu, Lei Qu, Ran Huo, Jing Zhang, Chunbo Duan, Yushan Meng, Chunmiao Han, and Hui Xu*. Overcoming Efficiency Limitation of Cluster Light-Emitting Diodes with Asymmetrically Functionalized Biphosphine Cu4I4 Cubes. Journal of the American Chemical Society.  2022, 144, 14, 6551-6557.

111. Jinkun Bian, Su Chen, Lili Qiu, Rundong Tian, Yi Man, Yidan Wang, Shuo Chen, Jing Zhang, Chunbo Duan, Chunmiao Han, Hui Xu*. Ambipolar Self-Host Functionalization Accelerates Blue Multi-Resonance Thermally Activated Delayed Fluorescence with Internal Quantum Efficiency of 100%. Adv. Mater. 2022, 2110547.

110. Peng Ma, Ruiming Du, Chunbo Duan *, Jing Zhang, Chunmiao Han, Hui Xu*. A phosphorated spirobi[thioxanthene] host matrix enables high-efficiency simple white thermally activated delayed fluorescence diodes. Chemical Engineering Journal 2022, 429, 132320.

109. Shuo Chen, Chunying Zhang, Hui Xu*. Achieving host-free near-ultraviolet electroluminescence via electronic state engineering with phosphine oxide. Chemical Engineering Journal 2022, 429, 132327.

108. Chunbo Duan, Ying Xin, Zicheng Wang, Jing Zhang, Chunmiao Han and Hui Xu*. High-efficiency hyperfluorescent white lightemitting diodes based on high-concentrationdoped TADF sensitizer matrices via spatial and energy gap effects. Chem. Sci., 2022, 13, 159.

2021

107. Yuee Tian, Huiqin Wang, Yi Man, Nan Zhang, Jing Zhang*, Ying Li, Chunmiao Han and Hui Xu*, Weaving host matrixes with intermolecular hydrogen bonds for high-efficiency white thermally activated delayed fluorescence. Chem. Sci., 2021, 12, 14519.

106. Zhe Li, Chunbo Duan*, Ying Li, Jing Zhang, Chunmiao Han and Hui Xu*. Exciton engineering based on star-shaped blue thermally activated delayed fluorescence emitters for efficient white organic light-emitting diodes. Journal of Materials Chemistry C 2021, 9, 15221.

105. Jing Zhang, Mingchen Xie, Ying Xin, Chunmiao Han, Linghai Xie, Mingdong Yi*, and Hui Xu*. Angew. Chem. Int. Ed. 2021, 60, 24894.

104. Hui Xu*, Sanyang Han, Renren Deng, Qianqian Su, Ying Wei, Yongan Tang, Xian Qin* & Xiaogang Liu*. Anomalous upconversion amplification induced by surface reconstruction in lanthanide sublattices. Nature Photonics. 2021, 15, 732-737.

103. Han, C.; Du, R.; Xu. H.,* Han. S.; Ma, P.; Bian, J.; Duan, C.; Wei, Y.; Sun, M.; Liu, X,* Huang, W.* Ladder-like energy-relaying exciplex enables 100% internal quantum efficiency of white TADF-based diodes in a single emissive layer. Nat. Commun., 2021, 12, 3640.

102. Duan, C.; Li, Z,; Zhang, J.; Han, C.; Xu. H.,* Direct evidence of dopant-dopant synergism in efficient single-emissive-layer white thermally activated delayed fluorescence. Nano Energy, 2021, 89, 106358.

101. Chen. S.; Xu. H.,* Electroluminescent materials toward near ultraviolet region. Chemical Society Reviews 2021, 50, 8639-8668.

100. Li, Z.; Yang, D.; Han, C.,* Zhao, B.; Wang, H.; Man, Y.; Ma, P.; Chang, P.; Ma, D.;* Xu. H.,* Optimizing Charge Transfer and Out-Coupling of A Quasi-Planar Deep-Red TADF Emitter: towards Rec.2020 Gamut and External Quantum Efficiency beyond 30%. Angew. Chem. Int. Ed. 2021, 60, 14846-14851.

99. Jiang, D,; Jiang, T,; Tian, Y.; Wen, K.; Duan, C.; Wang, N.; Li, Q.; Wang, J.; Xu. H.,* Regulatory effect of triphenylphosphine oxide on perovskites for morphological and radiative improvement. Journal of Materials Chemistry C 2021, 9, 6399-6403.

98. Duan, C.; Han, C.; Zhang, J.; Zhang, X.; Fan, C.; Xu H.,* Manipulating Charge-Transfer Excitons by Exciplex Matrix: Toward Thermally Activated Delayed Fluorescence Diodes with Power Efficiency beyond 110 lm W−1. Adv. Funct. Mater. 2021, 2102739.

97. Jiao, F.; Zhang, C.; Lu, G.; Man, Y.; Duan, C.; Han, C.; Zhang, J.; Chen, S.; Xu H.,* Sulfur atom manipulates geometric isomerism of diphosphinine oxides for efficient delayed fluorescence diodes. Chemical Engineering Journal 2021, 420, 129912.

96. Li, Y.;  Li, Z,;  Zhang, J.; Han, C.;  Duan, C,;*  Xu, H.,* Manipulating Complementarity of Binary White Thermally Activated Delayed Fluorescence Systems for 100% Exciton Harvesting in OLEDs. Adv. Funct. Mater. 2021, 2011169.

95. Zhang, J.; Wei, Y.;  Xu, H.,* High-power-efficiency thermally activated delayed fluorescence white organic light-emitting diodes based on asymmetrical host engineering.  Nano Energy, 2021, 83, 105746.

94. Han, C.; Zhang, J.; Ma, P.; Yang, W.; Xu, H.,* Host engineering based on multiple phosphorylation for efficient blue and white TADF organic light-emitting diodes. Chemical Engineering Journal 2021, 405, 126986.

93. Zhou, Y.; Pan, Q.; Zhang, J.; Han, C.; Wang, L.;* Xu, H.,* Insights into Synergistic Effect of Acid on Morphological Control of Vanadium Oxide: Toward High Lithium Storage. Advanced Science 2021, 8, 2002579.

92. Chang, P.; Han, C.;  Xu, H.,* Research progress of near infrared organic small-molecule electroluminescent materials. Chinese Journal of Liquid Crystals and Displays 2021, 36(1): 62-77.

91. Zhao, B.; Wang, H.; Xie, M.; Han, C.;* Yang, H.; Zhao, W.; Zhao, Q.;* Xu H.,* Phosphine Oxides Manipulate Aggregation‐Induced Delayed Fluorescence for Time‐Resolved Bio‐Imaging. Advanced Photonics Research 2021, 2, 2000096.

2020

90. Qu, H.; Yuan, L.; Jia, C.; Yu, H.; Xu, H.,* DFT investigation of hydrogen atom-abstraction reactions of NHC-boranes by various carboncentered radicals: barriers and correlation analyses. Rsc Advances 2020, 10, 34752.

89. Wei, Y.; Kan, W.; Zhang, J.; Xu, H.,* Highly efficient nondoped bilayer organic light-emitting diodes based on triphenyl phosphine oxide protected iridium complexes. Appled Physics Letters 2020,117(7),  071901.

88. Song, X.; Xu, H.,* Pure-organic phosphine oxide luminescent materials. Journal of Information Display 2020, 21(3), 149.

87. Yuan, W.; Yang, H.; Duan, C.; Cao, X.; Zhang, J.; Xu, H.;* Sun, N.; Tao,* Huang, W.,* Molecular Configuration Fixation with C–H•••F Hydrogen Bonding for Thermally Activated Delayed Fluorescence Acceleration. Chem 2020, 6(8), 1998.

86. Han, C.; Yang, W.; Xu, H.,* Asymmetrically phosphorylated carbazole host for highly efficient blue and white thermally activated delayed fluorescence diodes. Chemical Engineering Journal 2020, 401, 126049.

85. Wei, Y.; Zhang, J.; Kan, W.; Xu, H.,* Phosphine Oxide Linkage Manipulating Trinuclear Iridium(III) Complex for HighEfficiency Bilayer Nondoped Organic LightEmitting Diodes. Adv. Opt. Mater. 2020, 8(21), 2001105.

84. Zhang, J.; Han, C.; Du. F, Duan, C.; Wei, Y.;  Xu, H.,* High-Power-Efficiency White Thermally Activated Delayed Fluorescence Diodes Based on Selectively Optimized Intermolecular Interactions. Adv. Funct. Mater. 2020, 30, 2005165.

83.  Zhao, B.;  Wang, H.; Han, C.;* Ma, P.; Li, Z.; Chang, P.; Xu, H.,* Highly Efficient Deep-Red Non-Doped Diodes Based on T-Shape Thermally Activated Delayed Fluorescence Emitter. Angew. Chem. Int. Ed. 2020, 59, 19042.

82.  Du, R.; Duan, C.; Li, Y.; Zhang, J.; Han, C., Xu, H.,* Symmetrical spirobi[xanthene] based locally asymmetrical phosphine oxide host for low-voltage-driven highly efficient white thermally activated delayed fluorescence diodes. Chemical Engineering Journal 2020, 382, 124870.

81.  Gao, F.; Du, R.; Jiao, F.; Lu, G.;  Zhang, J.; Han, C., Xu, H.,* A Novel Bridge-Ring Phosphine Oxide Host 5,10-[1,2]Benzenophosphanthrene 5,10-Dioxide for Ultralow-Voltage-Driven Blue Thermally Activated Delayed Fluorescence Diodes. Adv. Opt. Mater. 2020, 2000052.

80.  Ding, D.; Wang, Z.; Li, C.; Zhang, J.; Duan, C.; Wei, Y.; Xu, H.,* Highly Efficient and Color-Stable Thermally Activated Delayed Fluorescence White Light-Emitting Diodes Featured with Single-Doped Single Emissive Layers. Adv. Mater. 2020, 30, 1606950.


79.  Sun, J.; Zhang, J.; Liang, Q.; Wei, Y.; Duan, C.; Han, C.; Xu, H.,* Charge-Transfer Exciton Manipulation Based on Hydrogen Bond for Efficient White Thermally Activated Delayed Fluorescence. Adv. Funct. Mater. 2020, 30, 1908568.

78.  Zhang, Z.; Ding, D.; Wei, Y.; Zhang, J.; Han, C.; Xu, H.,* Excited-state engineering of universal ambipolar hosts for highly efficient blue phosphorescence and thermally activated delayed fluorescence organic light-emitting diodes. Chemical Engineering Journal 2020, 382 (15), 122485.

2019

77.     Fan, X.; Li, C.; Wang, Z.; Wei, Y.; Duan, C.; Han, C.; Xu, H.,* Enhancing Reverse Intersystem Crossing via Secondary Acceptors: toward Sky-Blue Fluorescent Diodes with 10-Fold Improved External Quantum Efficiency. ACS Appl Mater Interfaces 2019, 11 (4), 4185-4192.

76.     Gao, F.; Du, R.; Han, C.; Zhang, J.; Wei, Y.; Lu, G.; Xu, H.,* High-efficiency blue thermally activated delayed fluorescence from donor-acceptor-donor systems via the through-space conjugation effect. Chemical Science 2019, 10 (21), 5556-5567.

75.     Zhao, B.; Xie, G.; Wang, H.; Han, C.; Xu, H.,* Simply Structured Near-Infrared Emitters with a Multicyano Linear Acceptor for Solution-Processed Organic Light-Emitting Diodes. Chemistry - A European Journal 2019, 25 (4), 1010-1017.

74.     Wang, H.; Zhao, B.; Ma, P.; Li, Z.; Wang, X.; Zhao, C.; Fan, X.; Tao, L.; Duan, C.; Zhang, J.; Han, C.;* Chen, G.; Xu, H.,* A red thermally activated delayed fluorescence emitter employing dipyridophenazine with a gradient multi-inductive effect to improve radiation efficiency. Journal of Materials Chemistry C 2019, 7 (25), 7525-7530.

73.  Xie, M.; Han, C.; Liang, Q.; Zhang, J.; Xie, G.; Xu, H.,* Highly efficient sky blue electroluminescence from ligand-activated copper iodide clusters: Overcoming the limitations of cluster light-emitting diodes. Science Advances 2019, 5 (6), eaav9857.

72.  Gao, F.; Du, R.; Wei, Y.;  Xu, H.,* Optimizing energy transfer for highly efficient single-emissive-layer white thermally activated delayed fluorescence organic light-emitting diodes. Optics Letters 2019, 4 (32), 5727-5730.

71. Du, R.; Duan, C.; Ying, L.;  Han, C.; Xu, H.,* Spirobicyclic host material with pseudo-intramolecular charge transfer: Improving color purity of high-performance pure-blue and white thermally activated delayed fluorescence diodes. Chemical Engineering Journal 2019, 374 (15), 471-478.

2018

70.     Li, C.; Duan, C.; Han, C.; Xu, H.,* Secondary Acceptor Optimization for Full-Exciton Radiation: Toward Sky-Blue Thermally Activated Delayed Fluorescence Diodes with External Quantum Efficiency of approximately 30%. Advanced Materials 2018, 30 (50), 1804228.

69.     Duan, C.; Han, C.; Du, R.; Wei, Y.; Xu, H.,* High-Efficiency Blue Dual-Emissive Exciplex Boosts Full-Radiative White Electroluminescence. Advanced Optical Materials 2018, 6 (19), 1800437.

68.     Liang, Q.; Han, C.; Duan, C.; Xu, H.,* Blue Thermally Activated Delayed Fluorescence-Emitting Phosphine Oxide Hosts for Ultrasimple and Highly Efficient White Organic Light-Emitting Diodes. Advanced Optical Materials 2018, 6 (12), 1800020.

67.     Lv, X.; Zhang, W.; Ding, D.; Han, C.; Huang, Z.; Xiang, S.; Zhang, Q.; Xu, H.;* Wang, L.,* Integrating the Emitter and Host Characteristics of Donor-Acceptor Systems through Edge-Spiro Effect Toward 100% Exciton Harvesting in Blue and White Fluorescence Diodes. Advanced Optical Materials 2018, 6 (12), 1800165.

66.   Han, C.; Zhang, Z.; Ding, D.; Xu, H.,* Dipole-Dipole Interaction Management for Efficient Blue Thermally Activated Delayed Fluorescence Diodes. Chem 2018, 4 (9), 2154-2167.

65.    Li, C.; Fan, X.; Han, C.; Xu, H.,* A ternary phosphine oxide host featuring thermally activated delayed fluorescence for blue PHOLEDs with >20% EQE and extremely low roll-offs. Journal of Materials Chemistry C 2018, 6 (25), 6747-6754.

64.   Cao, X.; Zhang, X.; Duan, C.; Xu, H.;* Yuan, W.; Tao, Y.;* Huang, W., Simple phenyl bridge between cyano and pyridine units to weaken the electron-withdrawing property for blue-shifted emission in efficient blue TADF OLEDs. Organic Electronics 2018, 57, 247-254.

63.   Han, C.; Xie, G.; Xu, H.,* Highly Efficient Solution-Processable Nanophosphor with Ambipolar Shell. Chemistry – A European Journal 2018, 24 (12), 2971-2979.

2017

62.   Yang, H.; Liang, Q.; Han, C.; Zhang, J.; Xu, H.,* A Phosphanthrene Oxide Host with Close Sphere Packing for Ultralow-Voltage-Driven Efficient Blue Thermally Activated Delayed Fluorescence Diodes. Advanced Materials  2017, 29 (38).

61.   Xie, M.; Han, C.; Zhang, J.; Xie, G.; Xu, H.,* White Electroluminescent Phosphine-Chelated Copper Iodide Nanoclusters. Chemistry of Materials 2017, 29 (16), 6606-6610.

60.   Zhao, F.; Wei, Y.; Xu, H.; Chen, D.; Ahamad, T.; Alshehri, S.; Pei, Q.;* Ma, D.,* Spatial exciton allocation strategy with reduced energy loss for high-efficiency fluorescent/phosphorescent hybrid white organic light-emitting diodes. Materials Horizons 2017, 4 (4), 641-648.

59.   Han, C.; Duan, C.; Yang, W.; Xie, M.; Xu, H.,* Allochroic thermally activated delayed fluorescence diodes through field-induced solvatochromic effect. Science Advances 2017, 3 (9), e1700904.

2016

58.   Li, J.; Ding, D.; Tao, Y.; Wei, Y.; Chen, R.; Xie, L.; Huang, W.;* Xu, H.,* A Significantly Twisted Spirocyclic Phosphine Oxide as a Universal Host for High-Efficiency Full-Color Thermally Activated Delayed Fluorescence Diodes. Advanced Materials  2016, 28 (16), 3122-3130.

57.   Zhang, J.; Ding, D.; Wei, Y.;* Han, F.; Xu, H.;* Huang, W., Multiphosphine-Oxide Hosts for Ultralow-Voltage-Driven True-Blue Thermally Activated Delayed Fluorescence Diodes with External Quantum Efficiency beyond 20. Advanced Materials  2016, 28 (3), 479-485.

56.   Zhang, J.; Duan, C.; Han, C.; Yang, H.; Wei, Y.; Xu, H.,* Balanced Dual Emissions from Tridentate Phosphine-Coordinate Copper(I) Complexes toward Highly Efficient Yellow OLEDs. Advanced Materials  2016, 28 (28), 5975-5979.

55.   Han, F.; Zhang, X.; Zhang, J.; Wei, Y.; Zhang, X.;* Huang, W.; Xu, H.,* 3D-Encapsulated iridium-complexed nanophosphors for highly efficient host-free organic light-emitting diodes. Chem Commun  2016, 52 (29), 5183-5186.

54.   Zhang, J.; Ding, D.; Wei, Y.;* Xu, H.,* Extremely condensing triplet states of DPEPO-type hosts through constitutional isomerization for high-efficiency deep-blue thermally activated delayed fluorescence diodes. Chemical Science  2016, 7 (4), 2870-2882.

53.   Duan, C.; Li, J.; Han, C.; Ding, D.; Yang, H.; Wei, Y.; Xu, H.,* Multi-dipolar Chromophores Featuring Phosphine Oxide as Joint Acceptor: A New Strategy toward High-Efficiency Blue Thermally Activated Delayed Fluorescence Dyes. Chemistry of Materials 2016, 28 (16), 5667-5679.

52.   Tao, Y.; Xu, L.; Zhang, Z.; Chen, R.;* Li, H.; Xu, H.;* Zheng, C.; Huang, W.,* Achieving Optimal Self-Adaptivity for Dynamic Tuning of Organic Semiconductors through Resonance Engineering. J Am Chem Soc 2016, 138 (30), 9655-9662.

51.   Duan, C.; Fan, C.; Wei, Y.; Han, F.; Huang, W.; Xu, H.,* Optimizing the Intralayer and Interlayer Compatibility for High-Efficiency Blue Thermally Activated Delayed Fluorescence Diodes. Sci Rep 2016, 6, 19904.

2015

50.   Fan, C.; Duan, C.; Wei, Y.; Ding, D.; Xu, H.;* Huang, W.,* Dibenzothiophene-Based Phosphine Oxide Host and Electron-Transporting Materials for Efficient Blue Thermally Activated Delayed Fluorescence Diodes through Compatibility Optimization. Chemistry of Materials 2015, 27 (14), 5131-5140.

49.   Zhao, X.;* Wu, Y.; Shi, N.; Li, X.; Zhao, Y.; Sun, M.; Ding, D.; Xu, H.; Xie, L., Carbazole-endcapped Spiro[fluorene-9,9′-xanthene] with Large Steric Hindrance as Hole-transporting Host for Heavily-doped and High Performance OLEDs. Chinese Journal of Chemistry 015, 33 (8), 955-960.

48.   Xu, H.;* Sun, Q.; An, Z.; Wei, Y.; Liu, X., Electroluminescence from europium(III) complexes.* Coordination Chemistry Reviews 2015, 293-294, 228-249.

47.   Ding, D.; Zhang, Z.; Wei, Y.; Yan, P.; Xu, H.,* Spatially optimized quaternary phosphine oxide host materials for high-efficiency blue phosphorescence and thermally activated delayed fluorescence organic light-emitting diodes. Journal of Materials Chemistry C 2015, 3 (43), 11385-11396.

46.   Jia, J.; Zhu, L.; Wei, Y.; Wu, Z.; Xu, H.;* Ding, D.; Chen, R.;* Ma, D.;* Huang, W., Triazine-phosphine oxide electron transporter for ultralow-voltage-driven sky blue PHOLEDs. Journal of Materials Chemistry C 2015, 3 (19), 4890-4902.

45.   Kan, W.; Zhu, L.; Wei, Y.; Ma, D.;* Sun, M.; Wu, Z.; Huang, W.;* Xu, H.,* Phosphine oxide-jointed electron transporters for the reduction of interfacial quenching in highly efficient blue PHOLEDs. Journal of Materials Chemistry C 2015, 3 (21), 5430-5439.

44.   Li, J.; Zhang, Z.; Han, C.; Ding, D.; Zhao, Y.;* Huang, W.;* Xu, H.,* Tuning peripheral group density in ternary phosphine oxide hosts for low-voltage-driven yellow PhOLEDs. Journal of Materials Chemistry C 2015, 3 (26), 6709-6716.

43.   Sun, M.; Zhu, L.; Kan, W.; Wei, Y.; Ma, D.;* Fan, X.; Huang, W.;* Xu, H.,* Ternary donor–acceptor phosphine oxide hosts with peculiar high energy gap for efficient blue electroluminescence. Journal of Materials Chemistry C 2015, 3 (36), 9469-9478.

42.   Xu, H.;* Wang, J.; Wei, Y.; Xie, G.;* Xue, Q.; Deng, Z.; Huang, W.,* A unique white electroluminescent one-dimensional europium(iii) coordination polymer. Journal of Materials Chemistry C 2015, 3 (9), 1893-1903.

41.   Fan, C.; Wei, Y.; Ding, D.; Xu, H.,* Linkage engineering in hosts for dramatic efficiency enhancement of blue phosphorescent organic light-emitting diodes. Opt Express 2015, 23 (10), 12887-12899.

2014

40.   Han, C.; Zhu, L.; Li, J.; Zhao, F.; Zhang, Z.; Xu, H.;* Deng, Z.; Ma, D.;* Yan, P., Highly efficient multifluorenyl host materials with unsymmetrical molecular configurations and localized triplet States for green and red phosphorescent devices. Advanced Materials  2014, 26 (41), 7070-7077.

39.   Han, C.; Zhu, L.; Zhao, F.; Zhang, Z.; Wang, J.; Deng, Z.; Xu, H.;* Li, J.; Ma, D.;* Yan, P., Suppressing triplet state extension for highly efficient ambipolar phosphine oxide host materials in blue PHOLEDs. Chem Commun 2014, 50 (20), 2670-2672.

38.   Xu, H.;* Chen, R.; Sun, Q.; Lai, W.; Su, Q.; Huang, W.;* Liu, X.,* Recent progress in metal-organic complexes for optoelectronic applications. Chem Soc Rev 2014, 43 (10), 3259-3302.

41.   Han, C.; Zhu, L.; Li, J.; Zhao, F.; Xu, H.;* Ma, D.;* Yan, P., Rationally investigating the influence of T1 location on electroluminescence performance of aryl amine modified phosphine oxide materials. Chemistry - A European Journal  2014, 20 (49), 16350-16359.

37.   Wang, J.; Han, C.; Xie, G.;* Wei, Y.;* Xue, Q.; Yan, P.; Xu, H.,* Solution-processible brilliantly luminescent Eu(III) complexes with host-featured phosphine oxide ligands for monochromic red-light-emitting diodes. Chemistry - A European Journal   2014, 20 (35), 11137-11148.

36.   Fan, Z.; Li, N.; Quan, Y.;* Chen, Q.; Ye, S.;* Fan, Q.; Huang, W.;* Xu, H., A solution-processable triphenylamine-fluorene host for exciplex based white phosphorescent organic light-emitting diodes. J. Mater. Chem. C 2014, 2 (45), 9754-9759.

35.   Zhang, Z.; Zhang, Z.; Ding, D.; Wei, Y.; Xu, H.;* Jia, J.; Zhao, Y.;* Pan, K.; Huang, W.,* Selectively Investigating Molecular Configuration Effect on Blue Electrophosphorescent Host Performance through a Series of Hydrocarbon Oligomers. The Journal of Physical Chemistry C 2014, 118 (35), 20559-20570.

2013

34.   Tao, Y.; Xiao, J.; Zheng, C.; Zhang, Z.; Yan, M.; Chen, R.;* Zhou, X.; Li, H.; An, Z.; Wang, Z.; Xu, H.;* Huang, W.,* Dynamically adaptive characteristics of resonance variation for selectively enhancing electrical performance of organic semiconductors. Angew Chem Int Ed  2013, 52 (40), 10491-10495.

33.   Yang, W.; Zhang, Z.; Han, C.; Zhang, Z.; Xu, H.;* Yan, P.; Zhao, Y.;* Liu, S., Controlling optoelectronic properties of carbazole-phosphine oxide hosts by short-axis substitution for low-voltage-driving PHOLEDs. Chemical Communcations 2013, 49 (27), 2822-2824.

32.   Han, C.; Zhang, Z.; Xu, H.;* Li, J.; Zhao, Y.;* Yan, P.; Liu, S., Elevating the triplet energy levels of dibenzofuran-based ambipolar phosphine oxide hosts for ultralow-voltage-driven efficient blue electrophosphorescence: from D-A to D-pi-A systems. Chemistry - A European Journal 2013, 19 (4), 1385-1396.

31.   Han, C.; Zhang, Z.; Xu, H.;* Xie, G.; Li, J.; Zhao, Y.;* Deng, Z.; Liu, S.; Yan, P., Convergent modulation of singlet and triplet excited states of phosphine-oxide hosts through the management of molecular structure and functional-group linkages for low-voltage-driven electrophosphorescence. Chemistry - A European Journal 2013, 19 (1), 141-154.

30.   Zhang, Z.; Zhang, Z.; Chen, R.; Jia, J.; Han, C.; Zheng, C.; Xu, H.;* Yu, D.; Zhao, Y.;* Yan, P.; Liu, S.; Huang, W.,* Modulating the optoelectronic properties of large, conjugated, high-energy gap, quaternary phosphine oxide hosts: impact of the triplet-excited-state location. Chemistry - A European Journal 2013, 19 (29), 9549-9561.

29.   Han, C.; Zhao, F.; Zhang, Z.; Zhu, L.; Xu, H.;* Li, J.; Ma, D.;* Yan, P., Constructing Low-Triplet-Energy Hosts for Highly Efficient Blue PHOLEDs: Controlling Charge and Exciton Capture in Doping Systems. Chemistry of Materials 2013, 25 (24), 4966-4976.

28.   Zhao, X.-H.; Zhang, Z.-S.; Qian, Y.; Yi, M.-D.; Xie, L.-H.;* Hu, C.-P.; Xie, G.-H.; Xu, H.; Han, C.-M.; Zhao, Y.;* Huang, W.,* A bulky pyridinylfluorene-fuctionalizing approach to synthesize diarylfluorene-based bipolar host materials for efficient red, green, blue and white electrophosphorescent devices. Journal of Materials Chemistry C 2013, 1 (21), 3482-3490.

2012

27.   Yu, D.; Zhao, F.; Han, C.; Xu, H.;* Li, J.; Zhang, Z.; Deng, Z.; Ma, D.;* Yan, P., Ternary ambipolar phosphine oxide hosts based on indirect linkage for highly efficient blue electrophosphorescence: towards high triplet energy, low driving voltage and stable efficiencies. Adv Mater 2012, 24 (4), 509-514.

26.   Han, C.; Zhang, Z.; Xu, H.;* Li, J.; Xie, G.; Chen, R.; Zhao, Y.;* Huang, W., Controllably tuning excited-state energy in ternary hosts for ultralow-voltage-driven blue electrophosphorescence. Angew Chem Int Ed 2012, 51 (40), 10104-10108.

25.   Yu, D.; Zhao, F.; Zhang, Z.; Han, C.; Xu, H.;* Li, J.; Ma, D.;* Yan, P., Insulated donor-pi-acceptor systems based on fluorene-phosphine oxide hybrids for non-doped deep-blue electroluminescent devices. Chemical Communcations 2012, 48 (49), 6157-6159.

24.   Han, C.; Xie, G.; Xu, H.;* Zhang, Z.; Yan, P.; Zhao, Y.;* Liu, S., Xanthene-based phosphine oxide host with the planar multi-insulating structure for efficient electrophosphorescence. Dyes and Pigments 2012, 94 (3), 561-569.

23.   Han, C.; Zhang, Z.; Xu, H.;* Yue, S.; Li, J.; Yan, P.; Deng, Z.; Zhao, Y.;* Yan, P.; Liu, S., Short-axis substitution approach selectively optimizes electrical properties of dibenzothiophene-based phosphine oxide hosts. J Am Chem Soc 2012, 134 (46), 19179-19188.

22.   Xu, H.;* Xie, G.; Han, C.; Zhang, Z.; Deng, Z.; Zhao, Y.;* Yan, P.; Liu, S., Influence of molecular configuration and functional substituents on excited state energy levels in two naphthyl-based phosphine oxide hosts. Organic Electronics 2012, 13 (9), 1516-1525.

2011

21.   Han, C.; Xie, G.; Xu, H.;* Zhang, Z.; Xie, L.; Zhao, Y.;* Liu, S.; Huang, W., A single phosphine oxide host for high-efficiency white organic light-emitting diodes with extremely low operating voltages and reduced efficiency roll-off. Adv Mater 2011, 23 (21), 2491-2496.

20.   Han, C.; Xie, G.; Li, J.; Zhang, Z.; Xu, H.;* Deng, Z.; Zhao, Y.;* Yan, P.; Liu, S., A new phosphine oxide host based on ortho-disubstituted dibenzofuran for efficient electrophosphorescence: towards high triplet state excited levels and excellent thermal, morphological and efficiency stability. Chemistry - A European Journal 2011, 17 (32), 8947-8956.

19.   Han, C.; Xie, G.; Xu, H.;* Zhang, Z.; Yu, D.; Zhao, Y.;* Yan, P.; Deng, Z.; Li, Q.; Liu, S., Towards highly efficient blue-phosphorescent organic light-emitting diodes with low operating voltage and excellent efficiency stability. Chemistry - A European Journal 2011, 17 (2), 445-449.

18. Han, C.; Zhao, Y.; Xu, H.;* Chen, J.; Deng, Z.; Ma, D.;* Li, Q.; Yan, P., A simple phosphine-oxide host with a multi-insulating structure: high triplet energy level for efficient blue electrophosphorescence. Chemistry - A European Journal 2011, 17 (21), 5800-5803.

17.   Yu, D.; Zhao, Y.; Xu, H.;* Han, C.; Ma, D.;* Deng, Z.; Gao, S.; Yan, P., Fluorene-based phosphine oxide host materials for blue electrophosphorescence: an effective strategy for a high triplet energy level. Chemistry - A European Journal 2011, 17 (9), 2592-2596.

16.   Zhao, J.; Xie, G.-H.; Yin, C.-R.; Xie, L.-H.; Han, C.-M.; Chen, R.-F.; Xu, H.;* Yi, M.-D.; Deng, Z.-P.; Chen, S.-F.; Zhao, Y.;* Liu, S.-Y.; Huang, W.,* Harmonizing Triplet Level and Ambipolar Characteristics of Wide-Gap Phosphine Oxide Hosts toward Highly Efficient and Low Driving Voltage Blue and Green PHOLEDs: An Effective Strategy Based on Spiro-Systems. Chemistry of Materials 2011, 23 (24), 5331-5339.

15.   Cai, J.-X.; Ye, T.-L.; Fan, X.-F.; Han, C.-M.; Xu, H.;* Wang, L.-L.; Ma, D.-G.;* Lin, Y.; Yan, P.-F., An effective strategy for small molecular solution-processable iridium(iii) complexes with ambipolar characteristics: towards efficient electrophosphorescence and reduced efficiency roll-off. Journal of Materials Chemistry 2011, 21 (39), 15405.

14.   Xu, H.;* Huang, W.,* Spectroscopic study of intramolecular energy transfer in a phosphine oxide Eu3+ complex: A stepwise process induced by intermediate energy levels. Journal of Photochemistry and Photobiology A: Chemistry 2011, 217 (1), 213-218.

13.   Xu, H.;* Zhu, R.; Zhao, P.; Huang, W.,* Monochromic Red-Emitting Nonconjugated Copolymers Containing Double-Carrier-Trapping Phosphine Oxide Eu3+ Segments: Toward Bright and Efficient Electroluminescence. The Journal of Physical Chemistry C 2011, 115 (31), 15627-15638.

12.   Xu, H.;* Zhu, R.; Zhao, P.; Xie, L.-H.; Huang, W.,* Photophysical and electroluminescent properties of a Series of Monochromatic red-emitting europium-complexed nonconjugated copolymers based on diphenylphosphine oxide modified polyvinylcarbazole. Polymer 2011, 52 (3), 804-813.

11.   Chen, R.-F.; Liu, L.-Y.; Fu, H.; Zheng, C.; Xu, H.;* Fan, Q.-L.;* Huang, W.,* The Influence of the Linkage Pattern on the Optoelectronic Properties of Polysilafluorenes: A Theoretical Study. The Journal of Physical Chemistry B 2011, 115 (2), 242-248.

2010以前

10.   Xu, H.;* Wei, Y.; Zhao, B.; Huang, W.,* Influence of bidentate structure of an aryl phosphine oxide ligand on photophysical properties of its EuIII complex. Journal of Rare Earths 2010, 28 (5), 666-670.

9.   Xu, H.;* Yin, K.; Huang, W.,* Synthesis, photophysical and electroluminescent properties of a novel bright light-emitting Eu3+ complex based on a fluorene-containing bidentate aryl phosphine oxide. Synthetic Metals 2010, 160 (19-20), 2197-2202.

8   Xu, H.;* Yu, D.-H.; Liu, L.-L.; Yan, P.-F.; Jia, L.-W.; Li, G.-M.; Yue, Z.-Y.,* Small Molecular Glasses Based on Multiposition Encapsulated Phenyl Benzimidazole Iridium(III) Complexes: Toward Efficient Solution-Processable Host-Free Electrophosphorescent Diodes. The Journal of Physical Chemistry B 2010, 114 (1), 141-150.

7.   Xu, H.;* Yin, K.; Huang, W.,* Novel Light-Emitting Ternary Eu3+ Complexes Based on Multifunctional Bidentate Aryl Phosphine Oxide Derivatives: Tuning Photophysical and Electrochemical Properties toward Bright Electroluminescence. The Journal of Physical Chemistry C 2010, 114 (3), 1674-1683.

6.   Yin, K.; Xu, H.; Zhong, G.; Ni, G.; Huang, W.,* Highly improved electroluminescence from double-layer devices based on a carbazole-functionalized europium3+ complex. Applied Physics A 2009, 95 (2), 595-600.

5.   Xu, H.; Yin, K.; Huang, W.,* Comparison of the electrochemical and luminescence properties of two carbazole-based phosphine oxide Eu(III) complexes: effect of different bipolar ligand structures. Chemphyschem 2008, 9 (12), 1752-1760.

4.   Xu, H.; Yin, K.; Wang, L.; Huang, W.,* Bright electroluminescence from a chelate phosphine oxide EuIII complex with high thermal performance. Thin Solid Films 2008, 516 (23), 8487-8492.

3.   Xu, H.;* Xu, Z.-F.; Yue, Z.-Y.;* Yan, P.-F.; Wang, B.; Jia, L.-W.; Li, G.-M.; Sun, W.-B.; Zhang, J.-W., A Novel Deep Blue-Emitting ZnII Complex Based on Carbazole-Modified 2-(2-Hydroxyphenyl)benzimidazole: Synthesis, Bright Electroluminescence, and Substitution Effect on Photoluminescent, Thermal, and Electrochemical Properties. The Journal of Physical Chemistry C 2008, 112 (39), 15517-15525.

2.   Xu, H.; Yin, K.; Huang, W.,* Highly improved electroluminescence from a series of novel Eu(III) complexes with functional single-coordinate phosphine oxide ligands: tuning the intramolecular energy transfer, morphology, and carrier injection ability of the complexes. Chemistry - A European Journal 2007, 13 (36), 10281-93.

1.   Xu, H.; Wang, L.-H.; Zhu, X.-H.; Yin, K.; Zhong, G.-Y.; Hou, X.-Y.; Huang, W.,* Application of Chelate Phosphine Oxide Ligand in EuIII Complex with Mezzo Triplet Energy Level, Highly Efficient Photoluminescent, and Electroluminescent Performances. The Journal of Physical Chemistry B 2006, 110 (7), 3023-3029.





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