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纳米科学技术学院2012年招生...
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冯敏强
教授、博士生导师



学术经历:

       1997年毕业于香港城市大学物理及材料科学系, 获得一等荣誉理学学士学位;1999年及2003年分别获得香港城市大学物理及材料科学系哲学硕士及哲学博士学位。在20002002年,到加拿大西安大略大学(University of Western Ontario)及美国普林斯顿大学(Princeton University)作短期学术交流。2003年至2013年在香港城市大学从事研究工作。20141月加盟苏州大学,并兼任苏州方�光电装备技术有限公司技术副总监、苏州市科技计划项目评审专家、以及苏州纳米科技协同创新中心产业部负责人。 

 

联系电话: 0512-65883657

电邮: mkfung@suda.edu.cn

 

研究领域:

本课题组集中于有机半导体器件的基础及应用研究,例如有机发光显示屏、有机白光照明、柔性光电子器件、器件薄膜封装技术、薄膜涂层、器件物理、表面及界面工程。从材料界面及器件物理角度,研发及优化高性能有机光电子器件为目的。目前,研究着重于:

1.     高效能及长工作寿命的白光OLED照明

2.     透明白光OLED装饰照明

3.     柔性光电器件及其薄膜封装技术

 

主要成果及技术贡献:

共发表学术论文超过70余篇,撰写专著(章节)3部,SCI期刊论文的引用次数超过1,600余次, H-index23。在国际会议或研讨会上做特邀学术报告超过15次,担任多个国际期刊的审稿人(例如: Organic Electronics, Applied Physics Letters, Chemical Physical Letters, Materials Science and Engineering B)。有超过10年从事有机光电子器件、薄膜涂层等基础及应用研究的经验,近年来一直致力于彩色OLED显示屏、白光OLED照明、透明白光OLED照明、柔性OLED及薄膜封装技术等工业研发。在OLED的基础研究领域, 主力OLED器件物理及其界面分析; OLED应用研究方面, 有丰富的中试线OLED制作和洁净室处理的经验,制作彩色OLED及大尺寸白光OLED照明原型。以主要研究人员身分曾参与了近20项和有机光电子及纳米材料的科研项目。

 

招生方向:

本课题组具有完善的有机光电器件制备及测试分析实验工具,欢迎物理、电子、材料科学及化学等相关的本科生及硕士生报考,同时欢迎有相关经验的博士生与博士后研究人员加盟。如有兴趣,请联系mkfung@suda.edu.cn

 

代表性论文:

1.   Xiao-Ke Liu, Cai-Jun Zheng, Ming-Fai Lo, Jing Xiao, Chun-Sing Lee, Man-Keung Fung and Xiao-Hong Zhang, A multifunctional phosphine oxide�diphenylamine hybrid compound as a high performance deep-blue fluorescent emitter and green phosphorescent host, Chem. Commun. 50 (2014), p.2027.

2.    J. Ye, Z. Chen, M.K. Fung, C.J. Zheng, X.M. Ou, X.H. Zhang, Y. Yuan, C.S. Lee, Carbazole/Sulfone Hybrid D-pi-A-Structured Bipolar Fluorophores for High-Efficiency Blue-Violet Electroluminescence, 25 (2013) p.2630, Chemistry of Materials.  

3.    C.J. Zheng, J. Wang, J Ye, M.F. Lo, X.K. Liu, M.K. Fung, X.H. Zhang, C.S. Lee, Novel Efficient Blue Fluorophors with Small Singlet-Triplet Splitting: Hosts for Highly Efficient Fluorescence and Phosphorescence Hybrid WOLEDs with Simplified Structure, 25 (2013) p. 2205, Advanced Materials.

4.   J. Ye, C.J. Zheng, X.M. Ou, X.H. Zhang, M.K. Fung, C.S. Lee, Management of Singlet and Triplet Excitons in a Single Emission Layer: A Simple Approach for a High-Efficiency Fluorescence/Phosphorescence Hybrid White Organic Light-Emitting Device, 24 (2012) p.3410, Advanced Materials.

5.   S.L. Tao, Y.L. Jiang, S.L. Lai, M.K. Fung, Y.C. Zhou, X.H. Zhang, W.M. Zhao, and C.S. Lee, Efficient blue organic light-emitting devices with a new bipolar emitter, 12 (2011) p.358, Organic Electronics.

6.  M.F. Lo, T.W. Ng, S.L. Lai, F.L. Wong, M.K. Fung, S.T. Lee, and C.S. Lee, Operation stability enhancement in organic photovoltaic device by a metal doped organic exciton blocking layer, 97 (2010) p.143304, Applied Physics Letters.

7.    T.W. Ng, M.F. Lo, M.K. Fung, S.L. Lai, T.Z. Liu, C.S. Lee, and S.T. Lee, Electronic properties and open-circuit voltage enhancement in mixed copper phthalocyanine:fullerene bulk heterojunction photovoltaic devices, 95 (2009) p.203303, Applied Physics Letters.

8.   Z.S. Su, M.K. Fung, C.S. Lee, W.L. Li and S.T. Lee, Memory effect and negative differential resistance in tris-(8-hydroxy quinoline) aluminum / bathocuproine bilayer devices, 93 (2008) p.083301, Applied Physics Letters.

9.    M.K. Fung, K.M. Lau, S.L. Lai, C.W. Law, M.Y. Chan, C.S. Lee, and S.T. Lee, Charge Generation Layer in Stacked Organic Light-Emitting Devices, 104 (2008), p.034509, Journal of Applied Physics.

10.   M.Y. Chan, S.L. Lai, K.M. Lau, M. K. Fung, C. S. Lee, and S. T. Lee, Influences of Connecting Unit Architecture on the Performance of Tandem Organic Light-Emitting Devices, 17 (2007) p.2509, Advanced Functional Materials.

11.   C.W. Law, K.M. Lau, M.K. Fung, M.Y. Chan, F.L. Wong, C.S. Lee and S.T. Lee, Effective organic-based connection unit for stacked organic light-emitting devices, 89 (2006) p.133511, Applied Physics Letters.

12.   W.J. Zhang, C.Y. Chan, X.M. Meng, M.K. Fung, I. Bello, Y. Lifshitz, S.T. Lee, and X. Jiang, The mechanism of chemical vapor deposition of cubic boron nitride films from fluorine-containing species, 44 (2005), p.4749, Angewandte Chemie-International Edition.

13.  M.K. Fung, S.L. Lai, S.W. Tong, S.N. Bao, C.S. Lee, W.W. Wu, M. Inbasekaran, J.J. O’Brien, and S.T. Lee, Interface gap states of 8-hydroxyquinoline aluminum induced by cesium metal, 392 (2004) p.40-43, Chemical Physics Letters.

14.  X. Jiang, F.L. Wong, M.K. Fung, and S.T Lee, Aluminum-doped zinc oxide films as transparent conductive electrode for organic light-emitting devices, 83 (2003), p.1875, Applied Physics Letters.

15.  M. K. Fung, S. L. Lai, S. W. Tong, S. N. Bao, C. S. Lee, W. W. Wu, M. Inbasekaran, J. J. O’Brien, and S. T. Lee, Distinct interfaces of poly (9,9-dioctylfluorene-co-benzothiadiazole) reacted with cesium and calcium as observed by photoemission spectroscopy, 94 (2003), p. 5763, Journal of Applied Physics.

16.  M. K. Fung, S. W. Tong, S. L. Lai, S. N. Bao, C. S. Lee, W. W. Wu, M. Inbasekaran, J. J. O’Brien, and S. T. Lee, Role of ytterbium and ytterbium/cesium fluoride on the chemistry of poly(9,9-dioctylfluorene-co-benzothiadiazole) as investigated by photoemission spectroscopy, 94 (2003) p.2686, Journal of Applied Physics.

17.  M.K. Fung, S.L. Lai, S.W. Tong, M.Y. Chan, C.S. Lee, S.T. Lee, J.J. O’Brien, M. Inbasekaran and W.W. Wu, Anode modification of polyfluorene-based polymer light-emitting devices, 81 (2002) p.1497-1499, Applied Physics Letters.

18.  M.K. Fung, S.L. Lai, S.N. Bao, C.S. Lee, J.J. O’Brien, M. Inbasekaran, W.W. Wu and S.T. Lee, Interfacial studies between poly(9,9-dioctylfluorene), potassium and oxygen, 128 (2002) p.97-101, Synthetic Metals.

19.  M.K. Fung, S.L. Lai, S.N. Bao, C.S. Lee, S.T. Lee, J.J. O’Brien, M. Inbasekaran and W.W. Wu, The interface between poly(9,9-dioctylfluorene) and alkali metals: cesium, potassium, sodium and lithium, 20 (2002) p.911, Journal of Vacuum Science and Technology A.

20.  M.K. Fung, Z.Q. Gao, C.S. Lee and S.T. Lee, Inhibition of Dark Spots Growth in Organic Electroluminescent Devices, 333 (2001) p.432-436, Chemical Physics Letters.

21.  M.K. Fung, K.H. Lai, H.L. Lai, C.Y. Chan, N.B. Wong, I. Bello, C.S. Lee and S.T. Lee, Diamond-like Carbon Coatings Applied to Hard Disks, 9 (2000) p.815-818, Diamond and Related Materials.

22.  M.K. Fung, K.H. Lai, C.Y. Chan, I. Bello, C.S. Lee, S.T. Lee, D.S. Mao and X. Wang, Mechanical Properties and Corrosion Studies of Amorphous Carbon on Magnetic Disks Prepared by ECR Plasma Technique, 368 (2000) p.198-202, Thin Solid Films.

23.  M.K. Fung, W.C. Chan, Z.Q. Gao, I. Bello, C.S. Lee and S.T. Lee, Effect of Nitrogen Incorporation into Diamond-like Carbon Films by ECR-CVD, 8 (1999) p.472-476, Diamond and Related Materials. 

24.  M.K. Fung, W.C. Chan, K.H. Lai, I. Bello, C.S. Lee, N.B. Wong and S.T. Lee, Deposition of Ultra-thin Diamond-like Carbon Protective Coating on Magnetic Disks by Electron Cyclotron Resonance Plasma Technique, 254 (1999) p.167-173, Journal of Non-crystalline Solids.

 

专著章节:

1.  M.F. Lo, T. W. Ng, M.K. Fung, S. L. Lai, M. Y. Chan, C. S. Lee, and S. T. Lee, “Implications of interfacial electronics to performance of organic photovoltaic devices” in “WOLEDs and Organic Photovoltaics - Recent Advances and Application”, edited by Yam, Vivian W. W., Springer (2010).

2.  Man-Keung Fung, Chun-Sing Lee, and Shuit-Tong Lee, “Interfaces in Organic Electronic Devices � New Insights to Traditional Concepts” in “Organic Electronics: Materials, Processing, Devices and Applications”, Edited by Franky So, CRC Press (2009).

3.   Man-Keung Fung, Chun-Sing Lee, and Shuit-Tong Lee, “Metal/Polymer Interface Studies for Organic Light-Emitting Devices” in “Electroluminescence � From Synthesis to Devices”, Edited by Klaus Müllen and Ullrich Scherf, Wiley-VCH Verlag GmbH & Co. KGaA (2006).

 


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