联系方式
办公地点: 南京市文苑路9号 南京邮电大学仙林校区教四楼418
Email: iamrdxia@njupt.edu.cn
个人简历
分别获得吉林大学物理系学士,北京科技大学材料系硕士,英国诺丁汉大学电子工程系博士,伦敦帝国学院人文科学系, 教育学硕士。2002年加入英国伦敦帝国学院, 2012年以“高层次人才”引进加盟南京邮电大学,现任南京邮电大学信息材料与纳米技术研究院/材料科学与工程学院教授、博士生导师
研究方向
有机光电子学材料和器件,包括高效可打印有机太阳能电池,有机激光器、光放大器。 主要研究项目
1. 2014.01 – 2017.12, 中国国家自然科学基金重点项目:利用聚合物分子链取向技术改进材料光电子性能的研究及应用开发,项目负责人
2. 2012.01– 2015.12,中国国家自然科学基金重点项目:电泵浦有机半导体受激发射研究,主要参加人
3. 2009.06 – 2012.03, 英国工程物理学会新能源重大国际合作项目: 高效可打印有机太阳能电池, 子项目负责人及合作管理
4. 2006.06 – 2009.05, 欧共体“框架项目6”高科技联合攻关项目: 有机物掺杂实现光通讯用光放大及光开关集成塑料光纤, 子项目负责人
5. 2004.01 – 2006.09, 英国工程物理学会工业与学术合作项目: 集成纳米技术及光通讯用光子学元件的研究, 主要参加人
6. 2002.03 – 2006.05, 英国皇家工程物理学会重大跨学科攻关项目: 超快光子学通信(有机物光电子器件),主要参加人 主要学术成绩
在国际上首次发表了光通讯用红外与可见光的聚合物转换开关的研究成果, 成功地展示了红、绿、蓝三基色聚合物激光器, 在国际上首次实现了高分贝聚合物光放大器。将光刻技术用于有机物发光器件制作工艺, 在同一衬底上实现了红,绿,蓝三色LED, 属国际首创.已在Nature Materials, Advanced Materials, Applied Physics letters 等国际权威学术刊物上发表文章近百篇。是多种SCI收录国际学术刊物(包括Advanced Materials,Advanced Functional Materials, Applied Physics Letters, J. of Applied Physics, Synthetic Metals, Materials Chemistry and Physics, Applied Materials & Interfaces 等)的审稿人及Journal of Photonics、Journal of Nanomaterials等刊物的编委、特邀编辑。
奖励荣誉
1. 2012.12: 江苏省科技进步二等奖
2. 2012.10: 江苏省创新团队核心成员
4. 2006.10: 伦敦帝国学院最佳科研奖
5. 2000.09: 英联邦妇女学者奖励基金
6. 1998.10: 英国国际学者奖励基金
7. 1998.10: 英国诺丁翰大学中国优秀学者奖
8. 1997.09: 荷兰国际高等教育合作奖
9. 1996.06: 美国IET教育奖
10. 1993.06: 北京市优秀青年教师奖
代表性著作
1. Y. Qian, Q. Wei, G. D. Pozo, M. M. Mróz, L. Lüer, S. Casado, J. Cabanillas-Gonzalez, Q. Zhang, L. Xie, R. Xia,* and W. Huang , H-shaped oligofluorenes for highly air-stable and low-threshold non-doped deep blue lasing, Advanced Materials, DOI: 10.1002/adma.201305355 (2014).
2. Jin-Yi Lin, Wen-Sai Zhu, Feng Liu, Ling-Hai Xie,* Long Zhang, Ruidong Xia,* Gui-Chuan Xing, Wei Huang , A Rational Molecular Design of -Phase Polydiarylfluorenes: Synthesis, Morphology, and Organic Lasers,Macromolecular, DOI: http://dx.doi.org/10.1021/ma402585n (2014).
3. R. Xia,* D.-S. Leem, T. Kirchartz, S. Spencer, C. Murphy, Z. He, H. Wu, S. Su, Y. Cao, J.-S. Kim, J. C. deMello, D. D. C. Bradley and J. Nelson, Detailed Investigation of a Conjugated Polyelectrolyte as an Interlayer for High Performance Inverted Polymer Solar Cells, Advanced Energy Materials, Vol. 3, PP 718-723 (2013). DOI:10.1002/aenm.201200967 (2013).
4. L. Yu, J. Liu, S. Hu, R. He, W. Yang, H. Wu, J. Peng, R. Xia,* D. D. C. Bradley, Red, Green and Blue Light-emitting Polyfluorenes Containing Dibenzothiophene-S,S-dioxide Units and Efficient, High Color Rendering Index, White-light-emitting Diodes made Therefrom, Advanced Functional Materials, Vol.23, PP 4366-4376 (2013). DOI: 10.1002/adfm..201203675 (2013).
5. R. Xia, P. N. Stavrinou, D. D. C. Bradley, and Y. Kim, Efficient optical gain media comprising binary blends of poly(3-hexylthiophene) and poly(9,9-dioctylfluorene-co-benzothiadiazole), J of Applied Physics. Vol. 111, P123107 (2012).
6. R. Xia*, M. Al-Hashimi, W. C. Tsoi, M. Heeney, D. D.C. Bradley and J. Nelson, Fused Pyrrolo[3,2-d:4,5-d′]bisthiazole-Containing Polymers for Using in High-Performance Organic Bulk Heterojunction Solar Cells, Solar Energy Materials and Solar Cells, Vol. 96, P112-116 (2012).
7. W. Lai, R. Xia, D. D. C. Bradley and W, Huang, 2, 3,7,8,12,13-Hexaaryltruxenes: An ortho-Substituted Multiarm Design and Microwave-Accelerated Synthesis toward Starburst Macromolecular Materials with Well-Defined π Delocalization, Chemistry – A European Journal, Vol. 16, P8471-8479 (2010).
8. J. Huang, Q. Liu, J. Zou, X. Zhu, A. Li, J. Li, J. Peng, Y. Cao, R. Xia*, D. D. C. Bradley, and J. Roncali , Electroluminescence and Laser Emission of Soluble Pure Red Fluorescent Molecular Glasses Based on Dithienylbenzothiadiazole, Advanced Functional Materials, Vol. 19, 2978-2988 (2009).
9. R. Xia*, W. Lai, P. A. Levermore, W. Huang, and D. D.C. Bradley, Low threshold distributed feedback lasers based on pyrene-cored starburst molecules with 1,3,6,8-attached oligo(9,9-dialkylfluorene) arms, Advanced Functional Materials, Vol. 19, P2844-2850 (2009).
10. W. Lai, R. Xia, Q. He, P. A. Levermore, W, Huang, and D. D. C. Bradley, Enhanced Luminescence and Low-Threshold Lasing from Novel Star Macromolecular Materials, Advanced Materials. Vol. 21, P355-360, (2009).
11. B. Yap, R Xia, M. Campoy-Quiles, P. N. Stavrinou and D. D. C. Bradley, Simultaneous Optimization of Semiconducting Polymer Films for Optical Gain and Charge Carrier Mobility, Natural Materials Vol.7, P 376-380, (2008).
12. R. Xia, C. Cheung, A. Ruseckas, D. Amarasinghe, I. D. W. Samuel and D. D. C. Bradley, Wavelength Conversion from Silica to Polymer Optical Fibre Communication Wavelengths via Ultrafast Optical Gain Switching in a Distributed Feedback Polymer Laser, Advanced Materials, Vol. 19, P 4054 – 4057 (2007).
13. J. Huang, R. Xia, Y. Kim, X. Wang, J. Dane, O. Hofmann, A. Mosley, A. J. de Mello, J. C. de Mello and D. D. C. Bradley, Pattern of organic devices by interlayer lithography, J. Mater. Chem., Vol. 17 P1043-1049 (2007).
14. P. A. Levermore, R. Xia, W. Lai, X. H. Wang, W. Huang, and D D C Bradley, Deep-blue light emitting triazatruxene core/oligo-fluorene branch dendrimers for electroluminescence and optical gain applications, J. Phys. D: Appl. Phys. Vol. 40 P1896-1901 (2007).
15. G Ryu, R. Xia and D D C Bradley, Optical gain characteristics of -phase poly(9,9-dioctylfluorene) J. of Physics: Condensed Matter, Vol.19, P056205, 2007.
16. R. Xia, G. Heliotis, M. Campoy-Quiles, P. N. Stavrinou, D. D. C. Bradley, Doojin Vak and Dong-Yu Kim, Characterisation of a high-thermal-stability spiroanthracenefluorene-based blue light emitting polymer optical gain medium, J. of Applied Physics, Vol.98, P083101, 2005.
17. R. Xia, G. Heliotis, P. N. Stavrinou and D. D. C. Bradley, Polyfluorene distributed feedback lasers operating in the green-yellow spectral region, Applied Physics Letters, Vol.87, P031104, 2005.
18. M. Campoy-Quiles, R. Xia, G. Heliotis, M. Ariu, M. Pintani, P. Etchegoin and D. D. C. Bradley, Ellipsometric characterization of the optical constants of polyfluorene gain media, Advanced Functional Materials, Vol.15, P925-933, 2005.
19. M. Ramon, M. Ariu, R. Xia, D. D. C. Bradley, M. A. Reilly, C. Marinelli, C. N. Morgan, R. V. Penty and I. H. White, A characterization of Rhodamine 640 for optical amplification: collinear pump and signal gain properties in solution, thin film and polymer dispersions and waveguide, J. of Applied Physics, Vol.97, P073517, 2005.
20. G. Heliotis, R. Xia, D. D. C. Bradley, G. A. Turnbull, I. D. W. Samuel, P. Andrew and W. L. Barnes, Two-dimensional distributed feedback lasers using a broadband, red polyfluorene gain medium, J. of Applied Physics, Vol.96, P6959-6965, 2004.
21. G. Heliotis, R. Xia, G. A. Turnbull, P. Andrew W. L. Barnes, I. D. W. Samuel, and D. D. C. Bradley, Emission characteristics and performance comparison of polyfluorene lasers with one- and two-dimensional distributed feedback, Advanced Functional Materials, Vol.14, P91-97, 2004.
22. R. Xia, G. Heliotis and D. D. C. Bradley, Semiconducting polyfluorenes as materials for solid-state polymer lasers across the visible spectrum, Synthetic Metals, Vol.140, P117-120, 2004.
23. G. Heliotis, R. Xia, K. S. Whitehead, G. A. Turnbull, I. D. W. Samuel, and D. D. C. Bradley, Investigation of amplified spontaneous emission in oriented films of a liquid crystalline conjugated polymer, Synthetic Metals, Vol.139, P727-730, 2003.
24. R. Xia, G. Heliotis, Y. Hou and D. D. C. Bradley, Fluorene-based conjugated polymer optical gain media, Organic Electronics, Vol.4, P165-177, 2003.
25. G. Heliotis, R. Xia, D. D. C. Bradley, G. A. Turnbull, I. D. W. Samuel, P. Andrew and W. L. Barnes, Surface-emitting distributed feedback lasers based on semiconducting polyfluorenes, Applied Physics Letters, Vol.83, P2118-2120, 2003.
26. R. Xia, G. Heliotis, and D. D. C. Bradley, Fluorene-based polymer gain media for solid-state laser emission across the full visible spectrum, Applied Physics Letters, Vol.82, P3599-3601, 2003. |
