廖良生
教授、博士生导师、国家特聘专家、俄罗斯工程院外籍院士
1982年获南昌大学物理系理学学士学位;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。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);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18新利体育
功能纳米与软物质研究院,被聘为教授、博士生导师,曾任研究院常务副院长。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。
课题组内教师:王雪东、周东营、王亚坤
课题组网页:www.funsom.com
研究方向:
(1)有机发光材料与器件:重点研究近红外发光材料与器件、器件的溶液法制备工艺
(2)量子点发光材料与器件:重点研究蓝光、深红光和近红外发光材料与器件
(3)有机微纳晶体光子学材料与器件:重点研究发光、激光、光波导和光探测材料
(4)有机发光器件的产业应用:重点开发健康照明光源、医用光源、车用光源;硅基微显示器;发光器件制造装备技术。
招生方向:
本课题组招收材料、物理、化学学科的硕士研究生和博士研究生。欢迎具有材料、化学、物理、电子学科背景的同学报考。联系方式:lsliao@suda.edu.cn
招聘信息:
本课题组根据发展需要,常年招聘博士后研究人员。欢迎从事发光器件、光电探测器件、发光和激光材料研究方向的博士申请。本课题组将提供有竞争力的工资待遇。工作优异者,将留组担任讲师或副教授。联系方式:lsliao@suda.edu.cn
主要成果和技术贡献:
提出了有机发光二极管(OLED)光子倍增原理,发明了光效和工作寿命倍增的叠层(tandem)OLED,破解了OLED无法同时实现高亮度和长寿命发光的重大科学技术难题,为全球OLED电视、平板电脑、智能手机、微显示器、健康照明、汽车尾灯等产品提供了关键器件技术。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。
共发表学术论文500多篇,论文他引2万多次(H-index = 80);2014年起,连续入选爱斯维尔出版社(Elsevier)发布的“中国高被引用学者榜单”。获授权专利262项(其中美国发明专利42项、中国发明专利121项、中国实用新型专利99项)。承担国家重点研发计划、国家“863”计划等科研项目12项。
主要荣誉和奖励:
2022年获江苏省科学技术奖二等奖
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
2020年度获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18新利备用网站
优秀成果奖技术发明二等奖
2015年被评为苏州市劳动模范
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18新利体育
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
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OLED分会委员(2017-)
18新利体育
学术委员会副主任委员(2015-2020)
论文发表情况:
https://sc.panda321.com/scholar?hl=zh-cn&q=Liang-Sheng+Liao
代表性论文(*为通迅作者):
20. Yan-Jun Yu, C. Zou*, W. S. Shen, X. P. Zheng, Q. S.Tian, You-Jun Yu, C. H. Chen, B. D. Zhao, Z. K. Wang, D. W. Di*, O. M. Bakr*, L. S. Liao*, “Efficient near-Infrared electroluminescence from lanthanide-doped perovskite quantum cutters”, Angew. Chem. Int. Ed. 62, e202302005 (2023).
19. S. F. Wang, B. K. Su, X. Q. Wang, Y. C. Wei, K. H. Kuo, C. H. Wang, S. H. Liu, L. S. Liao*, W. Y. Hung, L. W. Fu, W. T. Chuang, M. C. Qin, X. H. Lu, C. F. You, Y. Chi*, P. T. Chou*, “Polyatomic molecules with emission quantum yields >20% enable efficient organic light-emitting diodes in the NIR(II) window”, Nat. Photonics 16, 843-850 (2022).
18. M. P. Zhuo, G. P. He, X. D. Wang*, L. S. Liao*, “Organic superstructure microwires with hierarchical spatial organisation”, Nat. Commun. 12, 2252 (2021).
17. 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).
16. 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).
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).
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-typeorganic 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).