1.个人简介

姓名：廖小青，性别：男，学历：硕士

联系方式（电话及邮箱）：xiaoqin5122@163.com

2.个人经历

2016.07—至今     永利集团新材料技术研究院

2015.07—2016.07   重庆地恩科技开发有限责任公司

2012.09—2015.07   重庆理工大学硕士研究生

3.研究方向

有机电致发光器件

柔性电子材料与器件

4.代表性科研成果

项目：

1.高激子利用率的多元激基复合物电致发光器件研究，2020.10—2023.10，10万，重庆市自然科学基金面上项目，主持

2.高激子利用率的多元激基复合物电致发光器件研究，2019.12—2022.12，10万，永利集团自然科学重大培育项目，主持

3.热活化敏化多元激基复合物有机电致发光器件激子行为研究，2021.10-2024.09，4万，重庆市教委科学技术研究项目，主持

4.外部重原子效应对扭曲D-π-A结构的聚合物发光材料激子行为研究，2019.09—2021.09，2万，永川区自然科学基金项目，主持

论文：

1. X Liao, X Yang, R Zhang, et al. Solution-processed small-molecular white organic light-emitting diodes based on a thermally activated delayed fluorescence dendrimer [J]. Journal of Materials Chemistry C, 2017, 5.

2. X. Liao, K. An, J. Cheng, et al. High efficiency ultra-thin doping-free WOLED based on blue thermally activated delayed fluorescence inter-layer switch, Applied Surface Science. 487 (2019) 610–615.

3. X. Liao, K. An, Y. Li, X. et al. Blocking energy-loss pathways for phosphorescent organic light emitting devices with novel exciplex-forming host，Dyes and Pigments，182(2020), 108694.

4. X Liao, X Yang, J Cheng, et al. Solution‐Processed Warm White Organic Light‐Emitting Diodes Based on a Blue Thermally Activated Delayed Fluorescence Dendrimer [J]. Chempluschem, 2018.4

5. X. Liao, K. An, Y. Li, X. et al. Exciplex interlayer switch surface charge effect on ultra-thin non-doping WOLEDs, Materials Today Communications，25(2020) ， 101413.

6. Li Z, JunshengYu, Liao X#, et al. Flexible all fluorescence white organic light emitting device with over 22% EQE by stepped reverse intersystem crossing channels based on ternary exciplex[J]. Organic Electronics[J], 2021:106076

7. J. Li, X. Liao, H. Xu, L. Li, J. Zhang, H. Wang, B. Xu, Deep-blue thermally activated delayed fluorescence dendrimers with reduced singlet-triplet energy gap for low roll-off non-doped solution-processed organic light-emitting diodes, Dyes and Pigments. 140 (2017) 79–86.

8. H. He, X. Liao, J. Cheng, Y. Li, J. Yu, L. Li, Investigation of Energy Transfer in Star-Shaped White Polymer Light-Emitting Devices via the Time-Resolved Photoluminescence, Materials. 11 (2018) 1719.