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陈文铖

点击:次  更新日期:2019年12月23日  

陈文铖,博士,副教授,硕士生导师,广东工业大学青年百人计划A类引进人才。2018年博士毕业于香港城市大学化学系。2019年12月起在广东工业大学轻工化工学院应用化学系任教。目前在Angewandte Chemie International Edition,Advanced Materials,Advanced Functional Materials,Advanced Optical Materials,Chemical Science,ACS Applied Materials & Interfaces,Chemical Communications等国际学术刊累计发表70余篇论文,被引2000余次(H-index 27),申请中国发明专利12件、美国专利1件。主持国家自然科学基金青年基金和广东省自然科学基金面上基金各1项。

联系方式

电子邮箱:wencchen@gdut.edu.cn

通讯地址:广州市番禺区广州大学城外环西路100号广东工业大学轻工化工学院

邮编:510006

教育及工作经历

2007.9 - 2011.7北京化工大学,应用化学系,学士学位

2011.9 - 2014.7汕头大学,无机化学系,硕士学位

2013.6 - 2015.4香港城市大学,物理及材料科学系,研究助理

2015.5 - 2018.4香港城市大学,化学系,博士学位

2018.5 - 2019.11香港城市大学,超金刚石及先进薄膜研究中心,高级副研究员

承担课程

《现代合成技术》、《综合与创新实验》、《科技创新活动》等

研究方向

主要从事有机光功能材料的设计、合成及应用,致力于建立功能有机发光分子理性设计与合成新策略,实现有机分子的激发态性质和聚集态分子相互作用的可控调节。研究对象主要包括:有机电致发光材料与器件(OLED)、刺激响应智能发光材料、基于光功能纳米材料的生物技术应用(生物成像,光动力治疗,光热治疗等)、光引发剂及其光聚合应用。

学术网站

ORCID: 0000-0003-3788-3516

Google Scholar: https://scholar.google.com.hk/citations?user=GOtdbLkAAAAJ&hl=zh-CN

我的团队

有机光电功能材料团队

论文发表情况(更新至2022年3月,注:*通讯作者,#共同一作)

2022年

[1]F. Fang#, Y. Yuan#, Y. Wan, J. Li, Y. Song,W.-C. Chen, D. Zhao, Y. Chi, M. Li, C.-S. Lee, J. Zhang. Near-Infrared Thermally Activated Delayed Fluorescence Nanoparticle: A Metal-Free Photosensitizer for Two-Photon-Activated Photodynamic Therapy at the Cell and Small Animal Levels.Small2022,18, 2106215.

[2]Y.-F. Xiao,W.-C. Chen, J.-X. Chen, G. Lu, S. Tian, X. Cui, Z. Zhang, H. Chen, Y. Wan, S. Li, C.-S. Lee. Amplifying Free Radical Generation of AIE Photosensitizer with Small Singlet–Triplet Splitting for Hypoxia-Overcoming Photodynamic Therapy.ACS Appl. Mater. Interfaces2022,14, 5112.

[3]L. Zhou, J.-X. Chen, S. Ji,W.-C. Chen*, Y. Huo*. Research Progress of Red Thermally Activated Delayed Fluorescent Materials Based on Quinoxaline.Acta Chimica Sinica, DOI: 10.6023/A21120587.

[4]Y. Zhou, Z. Yang, Z. Qiu, N. Tang, D. Sun, B. Liu, X. Wu, S. Ji,W.-C. Chen*, Y. Huo*. New Donor–π–Acceptor AIEgens: Influence of π Bridge on Luminescence Properties and Electroluminescence Application.J. Photochem. Photobiol. A2022,428, 113891.

[5]P. Zhang, M. Li*,W.-C. Chen*. A Perspective on Perovskite Solar Cells: Emergence, Progress, and Commercialization.Front. Chem.DOI: 10.3389/fchem.2022.802890

[6]H.-J. Tan, G.-X. Yang, Y.-L. Deng, C. Cao, J.-H. Tan, Z.-L. Zhu,W.-C. Chen, Y. Xiong, J.-X. Jian, C.-S. Lee, Q.-X. Tong. Deep-Blue OLEDs with Rec.2020 Blue Gamut Compliance and EQE over 22% Achieved by Conformation Engineering.Adv. Mater.2022,34, 2200537

2021年

[1]G. Chen, Z. Qiu, J.-H. Tan,W.-C. Chen*, P. Zhou, L. Xing, S. Ji, Y. Qin, Z. Zhao*, Y. Huo*. Deep-blue organic light-emitting diodes based on push-pull π-extended imidazole-fluorene hybrids.Dyes Pigm.2021,184, 108754.

[2]D. Shen,W.-C. Chen, M.-F. Lo*, C.-S. Lee*. Charge-Transfer Complexes and Their Applications in Optoelectronic Devices.Mater. Today Energy2021,20, 100644.

[3]L. Chen, J.-H. Tan, Z. Yang, Z. Qiu, Y. Mu*, Z. Yang,W.-C. Chen, S. Ji, Z. Chi, Y. Huo*. High contrast temperature-responsive luminescence materials from purely organic molecule with persistent room-temperature phosphorescence.J. Lumin.2021,230, 117731.

[4]Z. Qiu, W. Xie, Z. Yang, J.-H. Tan, Z. Yuan, L. Xing, S. Ji,W.-C. Chen*, Y. Huo*, S. Su*. Nanosecond-time-scale delayed fluorescence towards fast triplet-singlet spin conversion for efficient orange-red OLEDs with negligible efficiency roll-off.Chem. Eng. J.2021,415, 128949.

[5]M. Yang, J.-H. Tan, L. Xing, Z. Qiu, C. Cao,W.-C. Chen*, Q.-D. Yang, S. Ji, Y. Huo*, C.-S. Lee*. A sterically shielded design on anthracene-based emitters for efficient deep-blue organic light-emitting diodes.J. Mol. Struct.2021,1232, 130035.

[6]Y. Xiao, J.-X. Chen,W.-C. Chen*, X. Zheng, C. Cao, J. Tan, X. Cui, Z. Yuan, S. Ji, G. Lu*, W. Liu, P. Wang, S. Li*, C.-S. Lee*. Achieving High Singlet-Oxygen Generation by Applying Heavy-Atom Effect to Thermally Activated Delayed Fluorescent Materials.Chem. Commun.2021,57, 4902.

[7]C. Cao, G.-X. Yang, J.-H. Tan, D. Shen,W.-C. Chen*, J.-X. Chen, J.-L. Liang, Z.-L. Zhu, S.-H. Liu, Q.-X. Tong*, C.-S. Lee*. Deep-blue high-efficiency triplet-triplet annihilation organic light-emitting diodes using donor- and acceptor-modified anthracene fluorescent emitters.Mater. Today Energy2021,21, 100727.

[8]Z.-L. Zhu,W.-C. Chen, S.-F. Ni, J. R. Yan, S.-F. Wang, L.-W. Fu, H.-Y. Tsai, Y. Chi*, C.-S. Lee*. Constructing deep-blue bis-tridentate Ir(III) phosphors with fluorene-based dianionic chelates.J. Mater. Chem. C2021,9, 1318.

[9]M. Ouyang, L. Xing, Q. Chen, H. Huang, M. Zhu, K. Hu, Y. Liu*,W.-C. Chen*, Y. Huo, C. Yang*. Highly efficient thermally activated delayed fluorescence emitters enabled by double charge transfer pathways via ortho-linked triarylboron/carbazole hybrids.J. Mater. Chem. C2021, 9, 1678.

[10]L. Xing, Z.-L. Zhu, J. He, Z. Qiu, Z. Yang, D. Lin,W.-C. Chen*, Q. Yang, S. Ji*, Y. Huo, C.-S. Lee*. Anthracene-based fluorescent emitters toward superior-efficiency nondoped TTA-OLEDs with deep blue emission and low efficiency roll-off.Chem. Eng. J.2021,421, 127748.

[11]Z.-L. Zhu, J.-H. Tan,W.-C. Chen, Y. Yuan, L.-W. Fu, C. Cao, C.-J. You, S.-F. Ni*, Y. Chi*, C.-S. Lee*. High Performance NIR OLEDs with Low Efficiency Roll-Off by Leveraging Os(II) Phosphors and Exciplex Co-Host.Adv. Funct. Mater.2021,31, 2102787.

[12]C. Huang#, Z. Qiu#, Y. Gao,W. Chen*, S. Ji, Y. Huo*.Chin. J. Org. Chem.2021,41, 3050.

[13]L. Zhou,W.-C. Chen*, J.-H. Tan, S. Ji, Q. Yang, Y. Mu, H.-L. Zhang, J. Zhao, Y. Huo*, C.-S. Lee*. Versatile azaryl-ketone-based blue AIEgens for efficient organic light-emitting diodes.Dyes Pigm.2021,195, 109729.

[14]L. Chen,W.-C. Chen*, Z. Yang, J.-H. Tan, S. Ji, H.-L. Zhang, Y. Huo*, C.-S. Lee*. Triplet Harvesting Aryl Carbonyl-Based Luminescent Materials: Progress and Prospective.J. Mater. Chem. C2021,9, 17233.

2020年

[1]W.-C. Chen#, C. Sukpattanacharoen#, W.-H. Chan#, C.-C. Huang, H.-F. Hsu*, D. Shen, W.-Y. Hung, N. Kungwan, D. Escudero*, C.-S. Lee*, Y. Chi*. Modulation of Solid-State Aggregation of Square-Planar Pt(II) Based Emitters: Enabling Highly Efficient Deep-Red/Near Infrared Electroluminescence.Adv. Funct. Mater.2020,30, 2002494.

[2]J. Li#, Z. Yang#, Y. Feng, Z. Su, Z. Qiu, J.-H. Tan,W.-C. Chen, M. Zhang, Z. Xu*, Y. Huo*. Asymmetric aggregation-induced emission materials with double stable configurations toward promoted performance in non-doped organic light-emitting diodes.J. Mater. Chem. C2020,8, 16858.

[3]Z. Qiu, Z. Yang,W.-C. Chen, L. Xing, S. Hu, S. Ji*, Q. Yang, N. Cai, X. Ouyang*, Y. Huo*. Alkoxy chain regulated stimuli-responsive AIE luminogens based on tetraphenylethylene substituted phenanthroimidazoles and non-doped OLEDs with negligible efficiency roll-off.J. Mater. Chem. C2020,8, 4139.

[4]J. Li,W.-C. Chen, H. Liu*, Z. Chen, D. Chai, C.-S. Lee*, C. Yang*. Double-twist pyridine–carbonitrile derivatives yielding excellent thermally activated delayed fluorescence emitters for high-performance OLEDs.J. Mater. Chem. C2020,8, 602.

[5]J.-J. Zhu,W.-C. Chen*, Y. Yuan, D. Luo, Z.-L. Zhu, X. Chen, J.-X. Chen, C.-S. Lee*, Q.-X. Tong*. Rational molecular design of bipolar phenanthroimidazole derivatives to realize highly efficient non-doped deep blue electroluminescence with CIEy ˂ 0.06 and EQE approaching 6%.Dyes Pigm.2020,173, 107982.

[6]Z. Guan, D. Shen, M. Li, C. Ma,W.-C. Chen, X. Cui, B. Liu, M.-F. Lo, S.-W. Tsang, C.-S. Lee*, W. Zhang*. Effects of Hydrogen Bonds between Polymeric Hole-Transporting Material and Organic Cation Spacer on Morphology of Quasi-Two-Dimensional Perovskite Grains and Their Performance in Light-Emitting Diodes.ACS Appl. Mater. Interfaces2020,12, 9440.

[7]G. Chen#,W.-C. Chen#, S. Ji*, P. Zhou, N. Cai, Y. Zhan, H. Liang, J.-H. Tan, C. Pan, Y. Huo*. Polymorphic mechanoresponsive luminescent material based on a fluorene–phenanthroimidazole hybrid by modulation of intramolecular conformation and intermolecular interaction.CrystEngComm2020,22, 2147.

[8]B. Huang*, X. Gu, Y. Feng, Y. Zhang, D. Jiang,W.-C. Chen*, G. Dai, Y. Ji, Q. Zhao, C.-S. Lee*. Solid-State Fluorophore Based on π-Extended Heteroaromatic Acceptor: Polymorphism, Mechanochromic Luminescence, and Electroluminescence.Cryst. Growth Des.2020,20, 2454.

[9]P. Ganesan#, D.-G. Chen#,W.-C. Chen, P. Gnanasekaran, J.-A. Lin, C.-Y. Huang, M.-C. Chen, C.-S. Lee*, P.-T. Chou*, Y. Chi*. Methoxy substituents activated carbazole-based boron dimesityl TADF emitters.J. Mater. Chem. C2020,8, 4780.

[10]C. Zhou,W.-C. Chen, H. Liu, X. Cao, N. Li, Y. Zhang, C.-S. Lee*, C. Yang*. Isomerization enhanced quantum yield of dibenzo[a,c]phenazine-based thermally activated delayed fluorescence emitters for highly efficient orange OLEDs.J. Mater. Chem. C2020,8, 9639.

[11]J.-H. Tan,W.-C. Chen*, S.-F. Ni, Z. Qiu, Y. Zhan, Z. Yang, J. Xiong, C. Cao, Y. Huo*, C.-S. Lee*. Aggregation-state engineering and emission switching in D–A–D′ AIEgens featuring dual emission, MCL and white electroluminescence.J. Mater. Chem. C2020,8, 8061.

[12]H. Liu*, J. Li,W.-C. Chen, Z. Chen, Z. Liu, Q. Zhan, X. Cao, C.-S. Lee*, C. Yang*. Modulating the acceptor structure of dicyanopyridine based TADF emitters: Nearly 30% external quantum efficiency and suppression on efficiency roll-off in OLED.Chem. Eng. J.2020,401, 126107.

[13]J.-X. Chen, Y.-F. Xiao, K. Wang*, X.-C. Fan, C. Cao,W.-C. Chen, X. Zhang, Y.-Z. Shi, J. Yu, F.-X. Geng, X. Zhang*, C.-S. Lee*. Origin of thermally activated delayed fluorescence in a donor–acceptor type emitter with an optimized nearly planar geometry.J. Mater. Chem. C2020,8, 13263.

[14]Q. Li,W.-C. Chen, Z. Qiu, Y. Huo*. Highly efficient inverted polymer solar cells based on ethanolamine-treated indium tin oxide as cathode.Org. Electron.2020,85, 105896.

[15]H. Liu*, J. Li,W.-C. Chen, X. Lv, C. Zhou, C.-S. Lee*, C. Yang*. Efficient Yellow Thermally Activated Delayed Fluorescent Emitters Based on 3,5-Dicyanopyridine Acceptors.J. Phys. Chem. C2020,124, 25489.

2019年

[1]C. Cao,W.-C. Chen*, S. Tian, J.-X. Chen, Z.-Y. Wang, X.-H. Zheng, C.-W. Ding, J.-H. Li, J.-J. Zhu, Z.-L. Zhu, Q.-X. Tong*, C.-S. Lee*. A novel D–π–A blue fluorophore based on [1,2,4]triazolo[1,5-a]pyridine as an electron acceptor and its application in organic light-emitting diodes.Mater. Chem. Front.2019,3, 1071.

[2]J.-X. Chen#, W.-W. Tao#,W.-C. Chen, Y.-F. Xiao, K. Wang*, C. Cao, J. Yu, S. Li, F.-X. Geng, C. Adachi, C.-S. Lee*, X.-H. Zhang*. Red/Near-Infrared Thermally Activated Delayed Fluorescence OLEDs with Near 100% Internal Quantum Efficiency.Angew. Chem. Int. Ed.2019,58, 14660.

[3]J.-X. Chen#, W.-W. Tao#, Y.-F. Xiao, S. Tian,W.-C. Chen, K. Wang*, J. Yu, F.-X. Geng, X.-H. Zhang*, C.-S. Lee*. Isomeric thermally activated delayed fluorescence emitters based on indolo[2,3-b]acridine electron-donor: a compromising optimization for efficient orange–red organic light-emitting diodes.J. Mater. Chem. C2019,7, 2898.

[4]A. Wang#, Y.-L. Hou#, F. Kang, F. Lyu, Y. Xiong,W.-C. Chen, C.-S. Lee, Z. Xu, A. L. Rogach, J. Lu*, Y. Y. Li*. Rare earth-free composites of carbon dots/metal–organic frameworks as white light emitting phosphors.J. Mater. Chem. C2019,7, 2207.

[5]C. Cao,W.-C. Chen*, J.-X. Chen, L. Yang, X.-Z. Wang, H. Yang, B. Huang, Z.-L. Zhu, Q.-X. Tong*, C.-S. Lee*. Bipolar Blue Host Emitter with Unity Quantum Yield Allows Full Exciton Radiation in Single-Emissive-Layer Hybrid White Organic Light-Emitting Diodes.ACS Appl. Mater. Interfaces2019,11, 11691.

[6]C. Ma, D. Shen, B. Huang, X. Li,W.-C. Chen, M.-F. Lo*, P. Wang, M. H.-W. Lam, Y. Lu, B. Ma, C.-S. Lee*. High performance low-dimensional perovskite solar cells based on a one dimensional lead iodide perovskite.J. Mater. Chem. A2019,7, 8811.

[7]R. Chen,W.-C. Chen, L. Yan, S. Tian, B. Liu, X. Chen, C.-S. Lee, W. Zhang*. Harnessing combinational phototherapy via post-synthetic PpIX conjugation on nanoscale metal–organic frameworks.J. Mater. Chem. B2019,7, 4763.

[8]W.-C. Chen, B. Huang, S.-F. Ni, Y. Xiong, A. L. Rogach, Y. Wan, D. Shen, Y. Yuan, J.-X. Chen, M.-F. Lo, C. Cao, Z.-L. Zhu, Y. Wang, P. Wang, L.-S. Liao*, C.-S. Lee*. Deep‐Red/Near‐Infrared Electroluminescence from Single‐Component Charge‐Transfer Complex via Thermally Activated Delayed Fluorescence Channel.Adv. Funct. Mater.2019,29, 1903112.

[9]J.-X. Chen#, W.-W. Tao#, Y.-F. Xiao, K. Wang*, M. Zhang, X.-C. Fan,W.-C. Chen*, J. Yu, S. Li, F.-X. Geng, X.-H. Zhang*, C.-S. Lee*. Efficient Orange-Red Thermally Activated Delayed Fluorescence Emitters Feasible for Both Thermal Evaporation and Solution Process.ACS Appl. Mater. Interfaces2019,11, 29086.

[10]B. Huang*, D. Jiang, Y. Feng,W.-C. Chen*, Y. Zhang, C. Cao, D. Shen, Y. Ji, C. Wang, C.-S. Lee*. Mechanochromic luminescence and color-tunable light-emitting devices of triphenylamine functionalized benzo[d,e]benzo[4,5]imidazo[2,1-a]isoquinolin-7-one.J. Mater. Chem. C2019,7, 9808.

[11]J. Zhang, F. Fang, B. Liu, J.-H. Tan,W.-C. Chen, Z. Zhu, Y. Yuan, Y. Wan, X. Cui, S. Li*, Q.-X. Tong, J. Zhao, X.-M. Meng, C.-S. Lee*. Intrinsically Cancer-Mitochondria-Targeted Thermally Activated Delayed Fluorescence Nanoparticles for Two-Photon-Activated Fluorescence Imaging and Photodynamic Therapy.ACS Appl. Mater. Interfaces2019,11, 41051.

[12]Y.-H. Luo, A.-D. Xie,W.-C. Chen*, D. Shen, D.-E. Zhang*, Z.-W. Tong, C.-S. Lee*. Multifunctional anionic indium–organic frameworks for organic dye separation, white-light emission and dual-emitting Fe3+sensing.J. Mater. Chem. C2019,7, 14897.

2018年

[1]W.-C. Chen, Y. Yuan, Z.-L. Zhu, Z.-Q. Jiang, S.-J. Su, L.-S. Liao*, C.-S. Lee*. De novo design of D–σ–A molecules as universal hosts for monochrome and white phosphorescent organic light-emitting diodes.Chem. Sci.2018,9, 4062.

[2]W.-C. Chen, Y. Yuan, Z.-L. Zhu, S.-F. Ni, Z.-Q. Jiang, L.-S. Liao*, F.-L. Wong, C.-S. Lee*. A novel spiro-annulated benzimidazole host for highly efficient blue phosphorescent organic light-emitting devices.Chem. Commun.2018,54, 4541.

[3]W.-C. Chen, Z.-L. Zhu, C.-S. Lee*. Organic Light‐Emitting Diodes Based on Imidazole Semiconductors.Adv. Opt. Mater.2018,6, 1800258.

[4]B. Huang,W.-C. Chen, Z. Li, J. Zhang, W. Zhao, Y. Feng, B. Z. Tang, C.-S. Lee*. Manipulation of Molecular Aggregation States to Realize Polymorphism, AIE, MCL, and TADF in a Single Molecule.Angew. Chem. Int. Ed.2018,57, 12473.

[5]W.-C. Chen, Y. Yuan, Z.-L. Zhu, Z.-Q. Jiang, L.-S. Liao*, C.-S. Lee*. Polyphenylnaphthalene as a Novel Building Block for High‐Performance Deep‐Blue Organic Light‐Emitting Devices.Adv. Opt. Mater.2018,6, 1700855.

[6]Z.-L. Zhu, S.-F. Ni,W.-C. Chen, M. Chen, J.-J. Zhu, Y. Yuan, Q.-X. Tong*, F.-L. Wong, C.-S. Lee*. Tuning electrical properties of phenanthroimidazole derivatives to construct multifunctional deep-blue electroluminescent materials.J. Mater. Chem. C2018,6, 3584.

[7]H. D. Pham#, H. Hu#, F.-L. Wong#, C.-S. Lee,W.-C. Chen, K. Feron, S. Manzhos, H. Wang, N. Motta, Y. M. Lam, P. Sonar*. Acene-based organic semiconductors for organic light-emitting diodes and perovskite solar cells.J. Mater. Chem. C2018,6, 9017.

2017年

[1]W.-C. Chen, Y. Yuan, S.-F. Ni, Q.-X. Tong*, F.-L. Wong, C.-S. Lee*. Achieving Efficient Violet-Blue Electroluminescence with CIEy< 0.06 and EQE > 6% from Naphthyl-Linked Phenanthroimidazole-Carbazole Hybrid Fluorophores.Chem. Sci.2017,8, 3599.

[2]W.-C. Chen, Y. Yuan, S.-F. Ni, Z.-L. Zhu, J. Zhang, Z.-Q. Jiang, L.-S. Liao*, F.-L. Wong, C.-S. Lee*. Highly Efficient Deep-Blue Electroluminescence from a Charge-Transfer Emitter with Stable Donor Skeleton.ACS Appl. Mater. Interfaces2017,9, 7331.

[3]W.-C. Chen, Y. Yuan, Y. Xiong, A. L. Rogach, Q.-X. Tong*, C.-S. Lee*. Aromatically C6- and C9-Substituted Phenanthro[9,10-d]imidazole Blue Fluorophores: Structure-Property Relationship and Electroluminescent Application.ACS Appl. Mater. Interfaces2017,9, 26268.

[4]W.-C. Chen, C.-S. Lee*, Q.-X. Tong*. Deep Blue Electroluminescence from an Asymmetrically Twisted and Rigid Phenanthroimidazole Molecule.Imag. Sci. Photochem.2017,35, 720.

[5]Z.-L. Zhu, S.-F. Ni,W.-C. Chen, Y. Yuan, Q.-X. Tong*, F.-L. Wong, F. Lu, C.-S. Lee*. A high performance deep-blue emitter with an anti-parallel dipole design.Dyes Pigm.2017,146, 219.

2016年

[1]H.-X. Wei, F.-S. Zu, Y.-Q. Li,W.-C. Chen, Y. Yuan, J.-X. Tang, M.-K. Fung, C.-S. Lee, Y.-Y. Noh. Charge transport dependent high open circuit voltage tandem organic photovoltaic cells with low temperature deposited HATCN-based charge recombination layers.Phys. Chem. Chem. Phys.2016,18, 4045.

[2]J. Zhang#,W. Chen#, R. Chen, X.-K. Liu, Y. Xiong, S. V. Kershaw, A. L. Rogach, C. Adachi*, X. Zhang, C.-S. Lee*. Organic nanostructures of thermally activated delayed fluorescent emitters with enhanced intersystem crossing as novel metal-free photosensitizers.Chem. Commun.2016,52, 11744.

[3]Z.-L. Zhu,W.-C. Chen, L.-D. Zhang, X.-L. Liu, Q.-X. Tong*, F.-L. Wong, F. Lu, C.-S. Lee*. A pyridine based meta-linking deep-blue emitter with high conjugation extent and electroluminescence efficiencies.J. Mater. Chem. C2016,4, 6249.

[4]J. Zhang,W. Chen, S. Kalytchuk, K. F. Li, R. Chen, C. Adachi, Z. Chen, A. L. Rogach, G. Zhu, P. K. N. Yu, W. Zhang, K. W. Cheah, X. Zhang*, C.-S. Lee*. Self-Assembly of Electron Donor–Acceptor-Based Carbazole Derivatives: Novel Fluorescent Organic Nanoprobes for Both One- and Two-Photon Cellular Imaging.ACS Appl. Mater. Interfaces2016,8, 11355.

[5]X.-K. Liu,W. Chen, H. Thachoth Chandran, J. Qing, Z. Chen, X.-H. Zhang*, C.-S. Lee*. High-Performance, Simplified Fluorescence and Phosphorescence Hybrid White Organic Light-Emitting Devices Allowing Complete Triplet Harvesting.ACS Appl. Mater. Interfaces2016,8, 26135.

[6]Z.-L. Zhu, M. Chen,W.-C. Chen, S.-F. Ni, Y.-Y. Peng, C. Zhang, Q.-X. Tong*, F. Lu, C.-S. Lee*. Removing shortcomings of linear molecules to develop high efficiencies deep-blue organic electroluminescent materials.Org. Electron.2016,38, 323.

2015年

[1]W.-C. Chen, C.-S. Lee*, Q.-X. Tong*. Blue-emitting organic electrofluorescence materials: progress and prospective.J. Mater. Chem. C2015,3, 10957.

[2]W.-C. Chen, G.-F. Wu, Y. Yuan, H.-X. Wei, F.-L. Wong, Q.-X. Tong*, C.-S. Lee*. A meta-molecular tailoring strategy towards an efficient violet-blue organic electroluminescent material.RSC Adv.2015,5, 18067.

[3]W.-C. Chen, Y. Yuan, G.-F. Wu, H.-X. Wei, J. Ye, M. Chen, F. Lu, Q.-X. Tong*, F.-L. Wong, C.-S. Lee*. Molecular modification on bisphenanthroimidazole derivative for deep-blue organic electroluminescent material with ambipolar property and high performance.Org. Electron.2015,17, 159.

[4]Y. Yuan, J.-X. Chen,W.-C. Chen, S.-F. Ni, H.-X. Wei, J. Ye, F.-L. Wong, Z.-W. Zhou, Q.-X. Tong*, C.-S. Lee*. The locally twisted thiophene bridged phenanthroimidazole derivatives as dual-functional emitters for efficient non-doped electroluminescent devices.Org. Electron.2015,18, 61.

[5]M. Chen, Y. Yuan, J. Zheng,W.-C. Chen, L.-J. Shi, Z.-L. Zhu, F. Lu, Q.-X. Tong*, Q.-D. Yang, J. Ye, M.-Y. Chan, C.-S. Lee*. Novel Bipolar Phenanthroimidazole Derivative Design for a Nondoped Deep-Blue Emitter with High Singlet Exciton Yields.Adv. Opt. Mater.2015,3, 1215.

[6]W.-C. Chen, Q.-X. Tong*, C.-S. Lee*. The Development of Phenanthroimidazole Derivatives in Blue-Emitting Organic Electroluminescence.Sci. Adv. Mater.2015,7, 2193.

2014年

[1]W.-C. Chen, Y. Yuan, G.-F. Wu, H.-X. Wei, L. Tang, Q.-X. Tong*, F.-L. Wong, C.-S. Lee*. Staggered Face-to-Face Molecular Stacking as a Strategy for Designing Deep-Blue Electroluminescent Materials with High Carrier Mobility.Adv. Opt. Mater.2014,2, 626.

[2]J. Ye, Z. Chen, K. Wang, F. An, Y. Yuan,W. Chen, Q. Yang, X. Zhang*, C.-S. Lee*. A Bipolar Transporter as an Efficient Green Fluorescent Emitter and Host for Red Phosphors in Multi- and Single-Layer Organic Light-Emitting Diodes.Chem. Eur. J.2014,20, 13762.

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