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科学家信息
基本信息
姓名:廖良生(导师)
邮箱:lsliao@suda.edu.cn
座机:0512-65880945
手机:
学习与工作经历
1988.6、1996.5先后获南京大学理学硕士学位和理学博士学位;
1996.3-1997.12,在复旦大学物理系和应用表面物理国家重点实验室从事博士后研究。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年入选中国科学院“百人计划”;
2000.12-2009.3,赴美国柯达公司研发部任研究员,从事有机半导体器件和材料研究;
2009.3加盟苏州大学,任苏州大学功能纳米与软物质研究院教授、博士生导师。同年入选国家“千人计划”;
现任江苏省产业技术研究院有机光电技术研究所执行所长。研究方向
(1)有机光电器件:重点研究高效率长寿命有机固态照明器件和有机发光显示器件、有机太阳能电池、高效钙钛矿太阳能电池等(设有器件工艺实验室;招收物理、材料、电子方向的考生); (2)有机光电物理:利用半导体测试方法以及界面分析手段研究有机光电器件和材料的载流子注入、传输、复合、界面缺陷、电荷积累、能级匹配等,力求为有机发光器件和太阳能电池性能的改善和材料的设计提供重要依据(设有器件物理实验室;招收物理、材料、电子方向的考生); (3)有机光电材料:重点针对有机光电器件,设计并合成新型有机发光材料、新型有机光伏材料和新型有机纳米材料,力求不断提高有机光电器件的工作性能。
部分主持项目
待更新
科研成果
(1)在美国柯达公司工作的八年里,申请各国专利170多项(其中已授权的美国专利41项);
(2)发表SCI学术论文200多篇,论文的引用次数为3800多次(H-index = 28);
(3)发明了具有全有机连接层结构的叠层(Tandem)OLED;制备了高性能的OLED显示器件和OLED照明器件;回国后,率先在国内制备了发光面积最大的有机白光照明面板以及节能护眼灯。
近年来,共主持7项国家科研课题,其中包括主持国家重点研发计划“战略性先进电子材料”重点专项项目1项,国家“863”计划重大项目课题1项,国家科技重大专项(02专项)子课题1项;主持国家自然科学基金重点项目1项、国际(地区)合作与交流项目1项、面上项目2项。代表论文或论文
20. Z. K. Wang, X. Gong, M. Li, Y. Hu, J. M. Wang,H. Ma, L. S. Liao*,
“Induced crystallizationof perovskites by a perylene underlayer for high-
performance solar cells” ACSNano. 10, 5479 (2016).
19. L. S. Liao, Shuit-Tong Lee*, “Materialsscience in China”, Nat. Rev.
Mater. 1, 16025 (2016).
18. Y. K. Wang, Z.C. Yuan, G. Z. Shi, Y. X. Li, Q Li, F. Hui, B. Q. Sun*, Z.
Q. Jiang*, L. S. Liao*, “Dopant-free spiro-triphenylamine/fluoreneas hole-
transporting material for perovskite solar cells with enhanced efficiencyand
stability”, Adv. Funct. Mater. 26, 1375 (2016).
17. X. Gong, M.Li, X. B. Shi, H. Ma, Z. K. Wang*, L. S.Liao*, “Controllable
perovskite crystallization by water additive for high-performancesolar cells”,
Adv. Funct. Mater. 25, 6671 (2015).
16. 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).
15. 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 hostsfor ≈100% exciton harvesting
in both phosphorescent and fluorescent light-emitting devices”, Adv. Mater.
27, 4213 (2015).
14. L. S. Liao*, “A low-cost route toward avivid display with striking colors
and high efficiency”, NPG.Asia. Mater. 7, e163 (2015).
13. J. Wang, F.Peng, Y. Lu, Y. Zhong, S. Y. Wang, M. F. Xu, X. Y. Ji, Y. Y.
Su, L. S. Liao*, Y. He*, “Large-scale green synthesis of fluorescent
carbonnanodots and their use in optics applications”,
Adv. OpticalMater. 3, 103 (2015).
12. Z. M. Jin, W. Gu, X. B. Shi, Z. K. Wang*, Z.Q. Jiang*, L. S. Liao*, “A no
velroute to surface enhanced Raman scattering: Ag nanoparticles embedded
in thenanogaps of a Ag substrate”, Adv. Optical Mater.2, 588 (2014).
11. W. Zhao, F.Liang, Z. M. Jin, X. B. Shi, P. H. Yin, X. R. Wang, C. Sun, Z.
Q. Gao, L. S.Liao*, “Efficient plasmonicphotocatalytic activity on silver-
nanoparticle-decorated AgVO3nanoribbons”,
J. Mater. Chem. A.2, 13226 (2014).
10. M. F. Xu, Y. J.Liao, F. S. Zu, J. Liang, D. X. Yuan, Z. K. Wang *, L. S.
Liao*, “Work-function tuneable and aqueoussolution-processed
Cs2CO3 for high-performance polymersolar cells”,
J. Mater. Chem. A 2, 9400 (2014).
9. Y. L. Lei, L. S. Liao*, and S. T.Lee*, “Selective growth of dual-color-
emitting heterogeneous microdumbbells composedof organic charge-
transfer complexes”, J. Amer. Chem. Soc.135, 3744(2013).
8. Y.L. Lei, Y. Jin, D. Y. Zhou, W. Gu, X. B. Shi, L. S. Liao,* and
S. T. Lee*, “White-light emitting microtubes ofmixed organic charge-
transfer complexes”, Adv. Mater., 24, 5345 (2012).
7. L. S. Liao*,K. P. Klubek, J. K. Madathil, C. W. Tang, and D. J. Giesen,
“Recoverableelectroluminescence from a contaminated organic/organic
interface in an organiclight emitting diode”,
Appl. Phys. Lett. 96, 043302 (2010).
6. L.S.Liao*and C.W.Tang, “Moisture exposure todifferent layers in
organic light-emitting diodes and the effect onelectroluminescence
characteristics”, J. Appl. Phys. 104, 044501(2008).
5. L.S.Liao*and K.P.Klubek, “Power efficiency improvement in a tandem
organiclight-emitting diode”, Appl. Phys. Lett.92(22), 223311(2008).
4. L. S. Liao*, W. K. Slusarek,T.K. Hatwar, M.L. Ricks, and D.L. Comfort,
“Tandem organic light-emitting diodeusing hexaazatriphenylene hexacarbonitrile
in the intermediate connector”,Adv. Mater. 20(2), 324 (2008).
3. L. S. Liao*, K.P. Klubek,and C.W. Tang, “High-efficiency tandem organic
light-emitting diodes”, Appl. Phys. Lett. 84(2), 167 (2004).
2. L. S. Liao, L. F. Cheng, X.H. Sun, N. B. Wong, C. S. Lee, and S. T. Lee*,
“Substrate dependence of thermaleffect on organic light-emitting films”,
Chem. Phys. Lett. 356, 194 (2002).
1. L.S.Liao, X.M.Bao, X.Q.Zheng, N.S.Li, and N.B.Min, “Blue
photoluminescencefrom Si+-implanted SiO2 filmson crystalline Si”,
Appl. Phys. Lett. 68(6), 850(1996).专利成果
20. L.S.Liao, M.W.Culver, and C.W.Tang, “Fluorocarbon electrode
modification layer”, US7,799,439B2 (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,
“WhiteOLED 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
organicelectroluminescent devices”,
US7,211,948 B2 (May 1,2007).
13. L.S. Liao and K.P. Klubek, “Organic electroluminescent devices having
astability-enhancing layer”, US7,138,763 B2(November 21,2006).
12. L.S. Liao and C.W. Tang,“Tandem OLED having stableintermediate
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-colororganic display
having improved blue emission”, US7,030,554 B2 (April18, 2006).
9. L.S. Liao, K.P. Klubek, D.L. Comfort, and C.W. Tang,
“Cascadedorganic electroluminescent device havingconnecting 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 anon-hole-blocking buffer layer”,
US6,881,502 B2 (April 19, 2005).
7. L.S. Liao and C.W. Tang, “Providing an organic electroluminescent
device havingstacked electroluminescent units”,
US6,872,472B2 (March 29, 2005).
6. L.S. Liao, K.P. Klubek, and D.L. Comfort, “Providing anemission-
protecting layer in an OLED device”,
US6,853,133 B2(February 8, 2005).
5. L.S. Liao and J.K.Madathil, “Organicelectroluminescent devices having
metal sub-layer within a hole-transportingregion”,
US6,818,329 B1 (November 16, 2004).
4. L.S. Liao, J.K.Madathil, P.K.Raychaudhuri, and C.W. Tang,
“Organic electroluminescent device havingan adhesion-promoting layer
for use with a magnesium cathode”,
US6,794,061B2(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-enhancinglayer”,
US6,781,149 B1(August 24, 2004).
2. L.S. Liao, K.P. Klubek, D.L. Comfort, and C.W. Tang, “Cascaded
organicelectroluminescent devices with improved voltage stability”,
US6,717,358B1 (April 6, 2004).
1. L.S. Liao, J.K.Madathil, K.P. Klubek, and C.W. Tang,“Organic light-
emitting diode having aninterface layer between the hole-transporting
layer and the light-emittinglayer”,
US6,603,150 B2 (August 5, 2003).