廖良生教授课题组

 廖良生

教授、博士生导师、国家特聘专家

• 1982 年获南昌大学物理系理学学士学位；

• 1982.1-1993.9 先后任南昌大学物理系助教、讲师、副教授（其间于 1989.6-1990.9，在美国 California State University, Northridge 进修访问）；

• 1988 年、1996 年先后获南京大学物理系理学硕士学位和理学博士学位。

• 1996.3-2000.12 在复旦大学物理系从事博士后研究，随后留任副教授（其间于 1998.12-2000.6，任香港城市大学超金刚石及先进薄膜研究中心特邀研究员）；

• 2000.12-2009.3 任美国柯达公司研发部研究员；2009.3 加入苏州大学功能纳米与软物质研究院，被聘为教授、博士生导师。现兼任江苏省产业技术研究院有机光电技术研究所执行所长。

  
  

主要成果和技术贡献：

发明了具有全有机连接层结构的叠层有机发光二极管（Tandem OLED），制备了高性能 OLED 显示器件和照明器件，曾为美国柯达公司 OLED 显示和照明技术的发展做出过重要贡献。回国后，主持设计和制造了中国第一条国产 OLED 生产线，并已初步实现 OLED 健康照明的自主产业化。

获中国专利授权 182 件，获美国专利授权 42 件。发表 SCI 学术论文 450 多篇，论文引用次数为 16,000 多次（SCI h-index = 68）；从 2014 年起连续进入 Elsevier 发布的“中国高被引学者榜单”。

     近年来，共主持十多项国家科研项目，其中包括主持国家“863”计划重大项目课题、国家重点研发计划项目、国家自然科学基金重点项目和国际（地区）合作与交流项目等。

主要荣誉和奖励：

2021 年获中国产学研合作创新成果奖二等奖

2021 年获中国电子学会科学技术发明奖二等奖

获 2020 年度苏州魅力科技团队奖（负责人）

2018 年获高等教育国家级教学成果奖二等奖（排名第五）

2017 年获教育部高等学校科学研究优秀成果奖技术发明二等奖

2015 年被评为苏州市劳动模范

2014 年获国家半导体照明工程研发及产业联盟颁发的“十年贡献奖”

2013 年获 江苏侨界贡献奖

2012 年获苏州市优秀教育工作者称号

2010 年、2011 年分别获苏州大学重大项目个人杰出贡献奖

2010 年被评为苏州工业园区首届海外高层次领军人才

2009 年入选江苏省 高层次创新创业人才引进计划

2009 年被聘为国家特聘专家

2007 年获美国柯达公司 杰出发明人奖

1998 年获江苏省科学技术进步一等奖

主要学术兼职：

美国《Applied Physics Letters》副主编（2015-）

《影像科学与光化学》学报编辑委员会委员（2011-2018）

《International Journal of Photonics》客座编辑（2014）

“十二五”国家科技重点专项（半导体照明专项）专家组专家（2012-2015）

江苏省自然科学基金委员会信息学科组专家（2010-）

中国有色金属学会宽禁带半导体专业委员会委员（2016-）

美国SID学会半导体照明分会委员（2017-）

苏州大学学术委员会副主任委员（2015-2020）

代表性美国专利：

20. L. S. Liao, M. W. Culver, and C. W. Tang, “Fluorocarbon electrode modification layer”, US7,799,439 B2 (September 21, 2010).

19. L. S. Liao, W. Slusarek, M. Ricks, R. H. Young, and D. L. Comfort, “OLED electron-injecting layer”, US7,629,741 B2 (December 8, 2009).

18. L. S. Liao, T. K. Hatwar, K. P. Klubek, D. L. Comfort, and C. W. Tang, “White OLEDs having a color compensated electroluminescent unit”, US7,560,862 B2 (July 14, 2009).

17. L. S. Liao, K. P. Klubek, and C. W. Tang, “Color organic OLED device”, US7,528,545 B2 (May 5, 2009).

16. L. S. Liao, W. Slusarek, T. K. Hatwar, M. L. Ricks, and D. L. Comfort, “Tandem OLED having an organic intermediate connector”, US7,494,722 B2 (February 24, 2009).

15. L. S. Liao, T. K. Hatwar, K. P. Klubek, and C. W. Tang, “White OLED having multiple white electroluminescence units”, US7,273,663 B2 (September 25, 2007).

14. L. S. Liao and K. P. Klubek, “Using a crystallization-inhibitor in organic electroluminescent devices”, US7,211,948 B2 (May 1, 2007).

13. L. S. Liao and K. P. Klubek, “Organic electroluminescent devices having a stability-enhancing layer”, US7,138,763 B2 (November 21, 2006).   

12. L. S. Liao and C. W. Tang, “Tandem OLED having stable intermediate connectors”, US7,126,267 B2 (October 24, 2006).

11. L. S. Liao, T. K. Hatwar, K. P. Klubek, J. R. Vargas, and D. L. Comfort, “Tandem OLED having low drive voltage”, US7,075,231 B1 (July 11, 2006).

10. L. S. Liao, K. P. Klubek, and C. W. Tang, “A full-color organic display having improved blue emission”, US7,030,554 B2 (April 18, 2006).

9. L. S. Liao, K. P. Klubek, D. L. Comfort, and C. W. Tang, “Cascaded organic electroluminescent device having connecting units with n-type and p-type organic layers”, US6,936,961 B2 (August 30, 2005).

8. L. S. Liao and K. P. Klubek, “Blue organic electroluminescent devices having a non-hole-blocking buffer layer”, US6,881,502 B2 (April 19, 2005).

7. L. S. Liao and C. W. Tang, “Providing an organic electroluminescent device having stacked electroluminescent units”, US6,872,472 B2 (March 29, 2005).

6. L. S. Liao, K. P. Klubek, and D. L. Comfort, “Providing an emission-protecting layer in an OLED device”, US6,853,133 B2 (February 8, 2005).

5. L. S. Liao and J. K. Madathil, “Organic electroluminescent devices having a metal sub-layer within a hole-transporting region”, US6,818,329 B1 (November 16, 2004).

4. L. S. Liao, J. K. Madathil, P. K. Raychaudhuri, and C. W. Tang, “Organic electroluminescent device having an adhesion-promoting layer for use with a magnesium cathode”, US6,794,061 B2 (September 21, 2004).

3. L. S. Liao, J. K. Madathil, K. P. Klubek, D. L. Comfort, and C. W. Tang, “OLED device with a performance-enhancing layer”, US6,781,149 B1 (August 24, 2004).

2. L. S. Liao, K. P. Klubek, D. L. Comfort, and C. W. Tang, “Cascaded organic electroluminescent devices with improved voltage stability”, US6,717,358 B1 (April 6, 2004).

1. L. S. Liao, J. K. Madathil, K. P. Klubek, and C. W. Tang, “Organic light-emitting diode having an interface layer between the hole-transporting layer and the light-emitting layer”, US6,603,150 B2 (August 5, 2003).

代表性论文（*为通讯作者）：

20. M. P. Zhuo, G. P. He, X. D. Wang*, L. S. Liao*, “Organic superstructure microwires with hierarchical spatial organisation”, Nat. Commun. 12, 2252 (2021).

19. Y. C. Wei, S. F. Wang, Y. Hu, L. S. Liao*, D. G. Chen, K. H. Chang, C. W. Wang, S. H. Liu, W. H. Chan, J. L. Liao, W. Y. Hung, T. H. Wang, P. T. Chen, H. F. Hsu, Y. Chi*, P. T. Chou*, “Overcoming the energy gap law in near-infrared OLEDs by exciton–vibration decoupling”, Nat. Photonics 14, 570-577 (2020).

18. X. Tang, L. S. Cui*, H. C. Li, A. J. Gillett, F. Auras, Y. K. Qu, C. Zhong, S. T. E. Jones, Z. Q. Jiang*, R. H. Friend*, L. S. Liao*, “Highly efficient luminescence from space-confined charge-transfer emitters”, Nat. Mater. 19, 1332-1338 (2020).

17. C. C. Zhang, Z. K. Wang*, S. Yuan, R. Wang, M. Li, M. F. Jimoh, L. S. Liao*, Y. Yang*, “Polarized ferroelectric polymers for high‐performance perovskite solar cells”, Adv. Mater. 31, 1902222 (2019).

16. M. Li, Y. G. Yang, Z. K. Wang*, T. Kang, Q. Wang, S. Turren‐Cruz, X. Y. Gao, C. S. Hsu, L. S. Liao*, A. Abate*, “Perovskite grains embraced in a soft fullerene network make highly efficient flexible solar cells with superior mechanical stability”, Adv. Mater. 31, 1901519 (2019).

15. M. P. Zhuo, J. J. Wu, X. D. Wang*, Y. C. Tao, Y. Yuan, L. S. Liao*, “Hierarchical self-assembly of organic heterostructure nanowires”, Nat. Commun. 10, 3839 (2019).

14. S. Yuan, Z. K. Wang*, L. X. Xiao, C. F. Zhang, S. Y. Yang, B. B. Chen, H. T. Ge, Q. S. Tian, Y. Jin, L. S. Liao*, “Optimization of low‐dimensional components of quasi‐2D perovskite films for deep‐blue light‐emitting diodes”, Adv. Mater. 1904319 (2019).

13. Y. L. Zhang, Q. Ran, Q. Wang, Y. Liu, C. Hänisch, S. Reineke, J. Fan*, L. S. Liao*, “High‐efficiency red organic light‐emitting diodes with external quantum efficiency close to 30% based on a novel thermally activated delayed fluorescence emitter”, Adv. Mater. 31, 1902368 (2019).

12. M. Li, Z. K. Wang*, M.P. Zhuo, Y. Hu, K. H. Hu, Q. Q. Ye, S. M. Jain, Y. G. Yang, X. Y. Gao, L. S. Liao*, Pb-Sn-Cu ternary organometallic halide perovskite solar cells, Adv. Mater. 30, 1800258 (2018).

11. L. S Cui, S. B. Ruan, F. Bencheikh, R. Nagata, L. Zhang, K. Inada, H. Nakanotani, L. S. Liao*, and C. Adachi*, “Long-lived efficient delayed fluorescence organic light-emitting diodes using n-type hosts”, Nat. Commun. 8, 2250 (2017).

10. Y. Li, L. Zhong, B. Gautam, H. J. Bin, J.D. Lin, F.P. Wu, Z. Zhang, Z.Q. Jiang*, Z. G. Zhang*, K. Gundogdu*, Y. F. Li, and L. S. Liao*, “A near-infrared non-fullerene electron acceptor for high performance polymer solar cells” Energy Environ. Sci. 10, 1610 (2017).

9.  M. K. Fung, Y. Q. Li, and L. S. Liao*, “Tandem organic light-emitting diodes”, Adv. Mater. 28, 10381 (2016).

8.  L. S. Cui, Y. L. Deng, D. P. K. Tsang, Z. Q. Jiang, Q. Zhang*, L. S. Liao*, C. Adachi*, “Controlling synergistic oxidation processes for efficient and stable blue thermally activated delayed fluorescence devices”, Adv. Mater. 28, 7620 (2016).

7.  Z. K. Wang, M. Li, Y. G. Yang, Y. Hu, H. Ma, X. Y. Gao*, L. S. Liao*, “High efficiency Pb–In binary metal perovskite solar cells”, Adv. Mater. 28, 6695 (2016).

6.  L. S. Liao, S. T. Lee*, “Materials science in China”, Nat. Rev. Mater. 1, 16025 (2016).

5.  X. B. Shi, Y. Hu, B. Wang, L. Zhang, Z. K. Wang*, L. S. Liao*, “Conductive inorganic–organic hybrid distributed Bragg reflectors”, Adv. Mater. 27, 6696 (2015).

4.  L. S. Cui, Y. M. Xie, Y. K. Wang, C. Zhong, Y. L. Deng, X. Y. Liu, Z. Q. Jiang*, L. S. Liao*, “Pure hydrocarbon hosts for ≈100% exciton harvesting in both phosphorescent and fluorescent light-emitting devices”, Adv. Mater. 27, 4213 (2015).

3.  Y. L. Lei, Y. Jin, D. Y. Zhou, W. Gu, X. B. Shi, L. S. Liao*, and S. T. Lee*, “White-light emitting microtubes of mixed organic charge-transfer complexes”, Adv. Mater., 24, 5345 (2012).

2.  L. S. Liao*, W. K. Slusarek, T. K. Hatwar, M. L. Ricks, and D. L. Comfort, “Tandem organic light-emitting diode using hexaazatriphenylene hexacarbonitrile in the intermediate connector”, Adv. Mater. 20(2), 324 (2008).

1.  L. S. Liao*, K. P. Klubek, and C. W. Tang, “High-efficiency tandem organic light-emitting diodes”, Appl. Phys. Lett. 84(2), 167 (2004).

联系电话：0512-65880945

E-mail: lsliao@suda.edu.cn

https://zz.glgoo.top/citations?hl=zh-CN&user=EgHWH8MAAAAJ

蒋佐权

苏州大学功能纳米与软物质研究院   教授博士生导师

ZuoquanJiang is an associate professor at Soochow University. He obtained his Ph.D degreefrom Wuhan University in 2009 followed by working as a postdoctoral fellow atUniversity of Washington and Hong Kong City University. Then, he joined Instituteof Functional Nano & Soft Materials (FUNSOM) of Soochow University in 2011and took collaborative study in Georgia Tech as a visiting scholar in 2015. Hiscurrent research interests focus on the design and synthesis of conjugatedmolecules & polymers and their applications in optoelectronics.

学术经历：

2004年 本科毕业于武汉大学化学基地班；

2009年 博士毕业于武汉大学有机化学专业曾荣获武汉大学优秀毕业生和湖北省优秀博士论文称号博士毕业后先后在华盛顿大学与香港城市大学从事博士后研究；

2011年加入苏州大学纳米科学技术学院。

2015年于佐治亚理工学院从事访问学者研究工作

研究兴趣为光电功能材料的设计与合成以及新型共轭分子体系的构建。

研究方向：主要从事有机光电材料的设计与合成，目前在新型螺环材料的构建，并环类刚性共轭材料的设计有着独特的工作，并将这些新颖结构应用于OLED材料，OPV材料以及钙钛矿材料中，已取得一系列研究成果，在Adv. Mater.,   Adv.Funct. Mater., Chem. Mater.,   Energy Environ. Sci., Org. Lett. 等重要期刊上发表SCI论文60余篇，H-index为22。

教学工作：有机化学下-本科生；高等有机化学-硕士生。

代表性论文：

1.    Cui, L.-S.; Xie, Y.-M.; Wang, Y.-K.; Zhong,C.; Deng, Y.-L.; Liu, X.-Y.; Jiang, Z.-Q.; Liao, L.-S., Pure Hydrocarbon Hostsfor ≈100% ExcitonHarvesting in Both Phosphorescent and Fluorescent Light-Emitting Devices.Advanced Materials 2015, 27 (28), 4213-4217.

2.    Jiang, Z.; Liu, Z.; Yang, C.; Zhong, C.;Qin, J.; Yu, G.; Liu, Y., Multifunctional Fluorene-Based Oligomers with NovelSpiro-Annulated Triarylamine: Efficient, Stable Deep-Blue Electroluminescence,Good Hole Injection, and Transporting Materials with Very High Tg. AdvancedFunctional Materials 2009, 19 (24), 3987-3995.

3.    Ding, L.; Dong, S.-C.; Jiang, Z.-Q.; Chen,H.; Liao, L.-S., Orthogonal Molecular Structure for Better Host Material inBlue Phosphorescence and Larger OLED White Lighting Panel. Advanced FunctionalMaterials 2015, 25 (4), 645-650.

4.    Wang, Y.-K.; Yuan, Z.-C.; Shi, G.-Z.; Li,Y.-X.; Li, Q.; Hui, F.; Sun, B.-Q.; Jiang, Z.-Q.; Liao, L.-S., Dopant-FreeSpiro-Triphenylamine/Fluorene as Hole-Transporting Material for PerovskiteSolar Cells with Enhanced Efficiency and Stability. Advanced FunctionalMaterials 2016, 26 (9), 1375-1381.

5.    Li, Q.; Cui, L.-S.; Zhong, C.; Jiang, Z.-Q.;Liao, L.-S., Asymmetric Design of Bipolar Host Materials with Novel1,2,4-Oxadiazole Unit in Blue Phosphorescent Device. Organic Letters 2014, 16(6), 1622-1625.

6.    Zhang, Y.-X.; Zhang, L.; Cui, L.-S.; Gao,C.-H.; Chen, H.; Li, Q.; Jiang, Z.-Q.; Liao, L.-S., Control of ConjugationDegree via Position Engineering to Highly Efficient Phosphorescent HostMaterials. Organic Letters 2014, 16 (14), 3748-3751.

7.    Jiang, Z.; Chen, Y.; Yang, C.; Cao, Y.; Tao,Y.; Qin, J.; Ma, D., A Fully Diarylmethylene-Bridged Triphenylamine Derivativeas Novel Host for Highly Efficient Green Phosphorescent OLEDs. Organic Letters2009, 11 (7), 1503-1506.

8.    Jiang, Z.; Yao, H.; Liu, Z.; Yang, C.;Zhong, C.; Qin, J.; Yu, G.; Liu, Y., Bent Ladder-Type Hexaphenylene withCarbazole Core and Spiro Linkage as Stable and Efficient Blue Emitter. OrganicLetters 2009, 11 (18), 4132-4135.

9.    Jiang, Z.; Yao, H.; Zhang, Z.; Yang, C.;Liu, Z.; Tao, Y.; Qin, J.; Ma, D., Novel Oligo-9,9′-spirobifluorenes throughortho-Linkage as Full Hydrocarbon Host for Highly Efficient PhosphorescentOLEDs. Organic Letters 2009, 11 (12), 2607-2610.

10.   Li, Y.; Zhong, L.; Wu, F.-P.; Yuan, Y.; Bin,H.-J.; Jiang, Z.-Q.; Zhang, Z.; Zhang, Z.-G.; Li, Y.; Liao, L.-S.,Non-fullerene polymer solar cells based on a selenophene-containing fused-ringacceptor with photovoltaic performance of 8.6%. Energy & EnvironmentalScience 2016, ASAP.

电话：0512-65880093

邮箱：zqjiang@suda.edu.cn

王照奎

苏州大学功能纳米与软物质研究院   教授博士生导师

2002年6月，河南师范大学物理系，理学学士学位；

2005年6月，汕头大学物理系，工学硕士学位；

2005年7月，入职河南师范大学物理系；

2008年3月，获日本文部科学省国费奖学金赴日本富山大学读博士学位；

2011年3月，日本富山大学，工学博士学位；

2011年4月，日本富山大学，VentureBusiness Laboratory（VBL）博士后；

2012年2月，入职苏州大学功能纳米与软物质研究院；

2012年8月，日本富山大学，日本学术振兴会（JSPS）外国人特别研究员；

2017年7月，晋升为教授。

　　曾获“2009 年度中国国家优秀自费留学生奖学金”、“富山大学校长奖”、“JSPS外国人研究院特别奖励费”、“教育部高等学校科学研究优秀成果奖技术发明奖二等奖（第四发明人）”等荣誉奖励。

研究领域：

主要围绕有机/无机半导体光电器件与器件物理，开展有机电致发光器件（OLED）以及钙钛矿太阳能电池（PSC）的研究工作，主要包括（1）有机及杂化半导体材料与器件的基础物性分析、界面物理、载流子输运过程以及掺杂机制研究等；（2）OLED器件的光学调控、低成本成膜工艺，钙钛矿薄膜的晶化控制以及高效低铅（无铅）PSC器件的制备等。

主要成果和技术贡献：

近年来围绕OLED与PSC器件的表界面调控和器件物理开展了创新性研究工作。从器件物理、结构设计以及器件制备的角度，在理论上研究影响薄膜晶化动力学过程以及表界面能量输运的关键机制，在实践上探索表界面调控以及有机/无机半导体掺杂的有效途径，在薄膜的晶化控制、表界面形貌调控以及高性能器件的应用制备方面取得了一系列创新性研究成果。以第一作者/通讯作者在Adv. Mater., Adv. Energy Mater., Adv. Funct. Mater., Adv. Optical Mater.,   ACS Nano, Nano Energy, Appl. Phys. Lett.等发表论文70余篇，论文被引用1750余次，H-index = 25。已获授权发明专利12项。

获得科研项目资助：

1.   国家自然科学基金面上项目（基金号：61674109，60万），主持

“基于微纳结构界面诱导晶化的高效平面异质结钙钛矿太阳能电池”

2.   国家自然科学基金青年基金（基金号：61307036，28万），主持

“掺杂有机半导体的电传导特性及其在光电器件中的应用”

3.    江苏省优秀青年基金（基金号：BK20170059，50万），主持

“基于掺杂的高效有机及杂化光电器件”

4.    江苏省自然科学基金青年基金（基金号：BK20130288，20万），主持

“基于有机、无机P型掺杂的高效有机光电子器件”，主持

5.    江苏省属高校自然科学研究面上项目 (基金号：12KJB510028，3万)

“小分子单发射层有机电致发光器件的稳定机制研究”，主持

代表性论文 (*通讯作者)

[1]M. Li, Z. K. Wang*, C. C. Zhang, L. L. Jiang, K. H. Hu, Q. Q. Ye, and L. S. Liao*

''Pb-Sn-Cu Ternary Organometallic Halide Perovskite Solar Cells''

Adv. Mater. 30, 1800258 (2018)

[2]M. Li, C. Zhao, Z. K. Wang*, C. C. Zhang, H. K. H. Lee, A. Pockett, J. Barbe, T. C. Tsoi, Y. G. Yang, M. J. Carnie, X. Y. Gao, W. X. Yang, J. R. Durrant, L. S. Liao*, S. J. Jain*

''Interface Modification by Ionic Liquid: A Promising Candidate for Indoor Light Harvesting and Stability Improvement of Planar Perovskite Solar Cells''

Adv. Energy Mater. 8, 1801509 (2018)

[3]J. M. Wang, Z. K. Wang*, M. Li, C. C. Zhang, K. H. Hu, Q. Q. Ye, and L. S. Liao*

''Doped Copper Phthalocyanine via an Aqueous SolutionProcess for Normal and Inverted Perovskite Solar Cells'',

Adv. Energy Mater. 8, 1701688 (2018)

[4]L. L. Jiang, Z. K. Wang*, Meng Li, C. C. Zhang, Q. Q. Ye, P. F. Fang*, and L. S. Liao*

“Passivated Perovskite Crystallization via g-C3N4 for High-Performance Solar Cells”

Adv. Funct. Mater. 28, 1705875 (2018) (Inside Cover)

[5]M. Li, Z. K. Wang*, T. Kang, Y. Yang, X. Gao, C. S. Hsu, Y. L. Li*, and L. S. Liao*

''Graphdiyne-modified cross-linkable fullerene as an efficient electron-transporting layer in organometal halide perovskite solar cells''

Nano Energy, 43, 47 (2018)

[6]Q. Q. Ye, Z. K. Wang*, M. Li, C. C. Zhang, K. H. Hu, L. S. Liao,

“N-Type Doping of Fullerenes for Planar Perovskite Solar Cells”

ACS Energy Lett. 3, 875 (2018)

[7]Z. K. Wang, and L. S. Liao*

''Doped Charge-Transporting Layers in Planar Perovskite Solar Cells''

Adv. Optical Mater. 6, 1800276 (2018)

[8]Z. K. Wang, M. Li, Y. G. Yang, Y. Hu, H. Ma, X. Y. Gao*, L. S. Liao*

''High Efficiency Pb-In Binary Metal Perovskite Solar Cells''

Adv. Mater. 28, 6695 (2016) (Inside Cover)

[9]M. Li, Z. K. Wang*, Y. G. Yang, Y. Hu, S. L. Feng, J. M. Wang, X. Y. Gao, and L. S. Liao*

''Copper Salts Doped Spiro-OMeTAD for High-Performance Perovskite Solar Cells''

Adv. Energy Mater. 6, 1601156, 2016.

[10]Z. K. Wang, X. Gong, M. Li, Y. Hu, J. M. Wang, H. Ma, and L. S. Liao*

''Induced Perovskite Crystallization by Perylene for High-Performance Solar Cells''

ACS Nano 10, 5479-5489 (2016).

[11]Y. Liu, F. Liang, L. S. Cui, X. B. Shi, Z. K. Wang*, and L. S. Liao*

''Simplified Hybrid White Organic Light-Emitting Diodes with a Controllable Carrier Recombination Layer for Exciton Managing and Lifetime Improving'',

Adv. Optical Mater. 4, 2051-2056 (2016)

[12]X. B. Shi, Y. Hu, B. Wang, L. Zhang, Z. K. Wang*, and L. S. Liao*

''Conductive Organic-Inorganic Hybrid Distributed Bragg Reflectors''

Adv. Mater. 27, 6696 (2015)

[13]X. Gong, M. Li, X. B. Shi, H. Ma, Z. K. Wang*, and L. S. Liao*

''Controllable Perovskite Crystallization by Water Additive for High Performance Solar Cells''

Adv. Funct. Mater. 25, 6671-6678 (2015)

[14]Y. Hu, D. Y. Zhou, B. Wang, Z. K. Wang*, and L. S. Liao*

'''Chlorinated indium tin oxide electrode by InCl3 aqueous solution for high-performance organic light-emitting diode ''

Appl. Phys. Lett. 108, 153303 (2016)

[15]L. Zhang, D. Y. Zhou, B. Wang, X. B. Shi, Y. Hu, Z. K. Wang*, and L. S. Liao*

''Enhanced efficiency and stability in organic light-emitting diodes by employing a p-i-n-p structure''

Appl. Phys. Lett. 109, 173302 (2016)

[16]Y. H. Lou, M. Li, Z. K. Wang*

''Seed-mediated superior organometal halide films by GeO2 nano-particles for high performance perovskite solar cells''

Appl. Phys. Lett. 108, 053301 (2016)

[17]X. B. Shi, M. Qian, Z. K. Wang*, and L. S. Liao*

''Nano-honeycomb structured transparent electrode for enhanced light extraction from organic light-emitting diodes''

Appl. Phys. Lett. 106, 223301 (2015)

[18]Y. H. Lou, Z. K. Wang*, D. X. Yuan, H. Okada, and L. S. Liao*

“Interfacial degradation effects of aqueous solution-processed molybdenum trioxides on the stability of organic solar cells evaluated by a differential method”

Appl. Phys. Lett. 105, 1133014 (2014)

[19]F. S. Zu, X. B. Shi, J. Liang, M. F. Xu, C. S. Lee, Z. K. Wang*, and L. S. Liao*

“Efficient optical absorption enhancement in organic solar cells by using a 2-dimensional periodic light trapping structure”

Appl. Phys. Lett. 104, 243904 (2014)

[20]X. B. Shi, M. F. Xu, D. Y. Zhou, Z. K. Wang*, and L. S. Liao*

“Improved cation valence state in molybdenum oxides by ultraviolet-ozonetreatments and its applications in organic light-emitting diodes”

Appl. Phys. Lett. 102, 233304 (2013)

[21]C. H. Gao, X. Z. Zhu, L. Zhang, D. Y. Zhou, Z. K. Wang*, and L. S. Liao*  

“Comparative studies on the inorganic and organic p-type dopants in organic light-emitting diodes with enhanced hole injection”

Appl. Phys. Lett. 102, 153301 (2013)

[22]Y. H. Lou, M. F. Xu, Z. K. Wang*, S. Naka, H. Okada, and L. S. Liao*

“Dual roles of MoO3-doped pentacene thin films as hole-extraction and multicharge-separation functions in pentacene/C60 heterojunction organic solar cells”

Appl. Phys. Lett. 102, 113305 (2013)

[23]M. W. Alam, Z. K. Wang*, S. Naka, H. Okada

“Mobility enhancement of top contact pentacene based organic thin film transistors with bi-layer GeO/Au Electrodes”

Appl. Phys. Lett. 102, 061105 (2013)

[24]Z. K. Wang*, Y. H. Lou, S. Naka, H. Okada

“Enhanced carrier injection in pentacene based thin film transistor by inserting a thin pentacene-MoO3 co-deposition layer”

Appl. Phys. Lett. 100, 043302 (2012)

[25]Z. K. Wang*, Y. H. Lou, S. Naka, H. Okada

“Bias and temperature dependent charge transport in solution-processed small molecular mixed single layer organic light emitting devices”

Appl. Phys. Lett. 98, 063302 (2011)

[26]Y. H. Lou, Z. K. Wang*, S. Naka, H. Okada

“Efficiency enhancement in perylene-doped bulk heterojunction organic solar cells based on P3HT: PCBM blends”

Appl. Phys. Lett. 99, 033305 (2011)

[27]Z. K. Wang*, Y. H. Lou, S. Naka, H. Okada

“Competitive emission process in mixed single layer top-emission organic light emitting device with reduced efficiency roll-off”

Appl. Phys. Lett. 97, 203302 (2010)

联系方式

电话：0512-65880927

邮箱：zkwang@suda.edu.cn

王雪东

副教授

2011年6月，兰州大学化学系，理学学士学位；

2016年6月，中国科学院化学研究所，物理化学专业，理学博士专业；

2016年8月，入职苏州大学功能纳米与软物质研究院

　　主要从事有机微纳光子学研究，共发表SCI论文40余篇，论文被引用700多次，H-Index = 14。以第一作者或通讯作者身份在J. Am. Chem. Soc.（2篇）, Angew.Chem. Int. Ed.（2篇）, Adv. Funct.Mater.（1篇）, Small（2篇）, Nanoscale(2篇)，Adv. Opt. Mater.（2篇）等期刊上发表论文。

荣誉和奖励：

1.     苏州大学首届优秀青年学者（2018）

2.     北京市优秀博士毕业生（2016年）

3.     中国科学院宝洁优秀研究生奖学金（2016）

4.     中国科学院院长优秀奖（2015）

5.     中科院化学所所长特别优秀奖（2014）

研究方向：

1.   有机微纳晶体的可控制备；

2.   有机微纳多级结构和超结构的可控制备及生长机理研究；

3. 微纳光子学器件（光波导和激光）;

获得科研项目资助（主持）：

1.     国家自然科学基金青年基金（21703148）：“有机近红外低维晶态材料的可控制备及其激光性能的研究”（21万，2018.1-2020.12）

2.     江苏省自然科学基金青年基金（BK20170330）：“有机近红外发光材料的设计合成及其纳米线激光的研究”（20万，2017.7-2020.6）

3.     南京大学固体微结构物理国家重点实验室开放课题（M30035）：“有机近红外低维晶态材料的可控制备及其激光性能的研究”（3万，2017.10-2019.6）

代表性论文（10篇）：

[1] Ming-Peng Zhuo, Yi-Chen Tao, Xue-Dong Wang*, Yuchen Wu*, Shuo Chen, Liang-Sheng Liao*, Lei Jiang, 2D Organic Photonics: An Asymmetric Optical Waveguide in Self-Assembled Halogen-Bonded Cocrystals. Angew. Chem. Int. Ed., 2018, DOI: 10.1002/anie.201806149.

[2] Zhi-Zhou Li, Yi-Chen Tao, Xue-Dong Wang*, Liang-Sheng Liao*, Organic Nanophotonics: Self-Assembled Single-Crystalline Homo-/Hetero-Structures for Optical Waveguides. ACS Photonics, 2018, DOI: 10.1021/acsphotonics.8b00815.

[3] Ming-Peng Zhuo, Ye-Xin Zhang, Zhi-Zhou Li, Ying-Li Shi, Xuedong Wang*, Liang-Sheng Liao, Controlled synthesis of organic single-crystalline nanowires via the synergy approach of the bottom-up/top-down processes. Nanoscale, 2018, DOI: 10.1039/C7NR08931G.

[4] Xuedong Wang*, Zhi-Zhou Li, Ming-Peng Zhuo, Yishi Wu, Shuo Chen*, Jiannian Yao, Hongbing Fu*, Tunable Near-Infrared Organic Nanowire Nanolasers. Advanced Functional Materials, 2017, 27 (45), 1703470.

[5] Zhi-Zhou Li, Feng Liang, Ming-Peng Zhuo, Ying-Li Shi, Xue-Dong Wang*, Liang-Sheng Liao*, White-Emissive Self-Assembled Organic Microcrystals. Small 2017, 13 (19), 1604110.

[6] Zhi-Zhou Li, Liang-Sheng Liao* Xue-Dong Wang*, Controllable Synthesis of Organic Microcrystals with Tunable Emission Color and Morphology Based on Molecular Packing Mode. Small, 2017, 1702952.

[7] Xuedong Wang*, Zhi-Zhou Li, Shi-Feng Li; Hui, Li, Jianwei Chen, Yishi Wu, Hongbing Fu*, Near-Infrared Organic Single-Crystal Lasers with Polymorphism-Dependent Excited State Intramolecular Proton Transfer. Advanced Optical Materials, 2017, 5 (12), 1700027.

[8] Xuedong Wang, Qing Liao, Hui Li, Shuming Bai, Yishi Wu, Xiaomei Lu, Huaiyuan Hu, Qiang Shi, and Hongbing Fu*, Near-infrared lasing from small-molecule organic hemispheres. J. Am. Chem. Soc., 2015, 137, 9289.

[9] Xuedong Wang, Hui Li, Yishi Wu, Zhenzhen Xu, and Hongbing Fu*, Tunable morphology of the self-assembled organicmicrocrystals for the efficient laser optical resonator by molecularmodulation, J. Am. Chem. Soc., 2014, 136, 16602.

[10] Xuedong Wang, Qing Liao*, Qinghua Kong, Yi Zhang, Zhenzhen Xu, Xiaomei Lu, and Hongbing Fu*, Whispering-gallery-mode microlaser based on self-assembled organic single-crystalline hexagonal microdisks. Angew. Chem. Int. Ed., 2014, 53, 5863.

电话：0512-65880927

邮箱：wangxuedong@suda.edu.cn