1. 个人简历
谢国华,英国皇家化学会会士、德国洪堡学者。
2006、2008、2011年在吉林大学分别获电子科学与技术工学学士、微电子学与固体电子学理学硕士和微电子学与固体电子学理学博士学位;2011至2012年间在德国德累斯顿工业大学应用光物理研究所从事博士后研究;2013至2015年在英国圣安德鲁斯大学物理与天文系从事博士后研究;2015至2023年间在武汉大学化学与分子科学学院任副研究员;2023年在厦门大学担任教授。先后在Nature Communications、Science Advances、The Innovation、Advanced Materials、Journal of the American Chemical Society、Angewandte Chemie International Edition等国际知名期刊上发表研究论文近300篇,授权国内专利10项。
详细信息请见https://faculty.xmu.edu.cn/zwmb3/index.jsp?_t_uid=31103
2. 联系方式
邮箱:ifeghxie@xmu.edu.cn
3. 研究方向
谢国华教授课题组的研究方向集中在新型发光材料和器件。
(1)有机发光材料和器件
(2)量子点发光材料和器件
(3)钙钛矿发光材料和器件
4. 学术兼职
担任《The Innovation》、《SmartMat》、《InfoMat》、《发光学报》等期刊的青年编委,参与创办《The Innovation Materials》。
5. 近期代表作
1. Tang Y, Li, R, Sun R, Min, J, Lin QQ*, Yang CL* & Xie GH*, Flexible all-organic photodetectors via universal water-assisted transfer printing, The Innovation 2023.
2. Li JL, Zhou L, He JW, Xue Q, Xu L & Xie GH*, A feasible strategy for high efficient thermally activated delayed fluorescence emitter over 900 nm based on phenalenone derivatives, Chemical Engineering Journal 2023.
3. Zhang N, Li Y, Han SY, Wei Y, Hu H, Huo R, Duan CB, Zhang J, Han CM, Xie GH* & Xu H*, Cluster light-emitting diodes containing copper iodine cube with 100% exciton utilization using host-cluster synergy, Angewandte Chemie International Edition 2023.
4. Zhang N, Qu L, Hu H, Huo R, Meng YH, Duan CB, Zhang J, Han CM, Xie GH* & Xu H*, Sky blue and yellow cluster light-emitting diodes based on asymmetric Cu4I4 nanocubes, Research 2022.
5. Zhang N†, Qu L†, Dai SH†, Xie GH†, Han CM, Zhang J, Huo R, Hu H, Chen QS*, Huang W & Xu H*, Intramolecular charge transfer enables highly-efficient X-ray luminescence in cluster scintillators, Nature Communications 2023.
6. Zhou L, Ni F, Li N, Wang K, Xie GH* & Yang CL*, Tetracoordinate boron-based multifunctional chiral thermally activated delayed fluorescence emitters, Angewandte Chemie International Edition 2022.
7. Liu H, Tang Y, Ying A, Gao YH, Chen XY, Zhou L, Lin JL & Xie GH*, Post-synthesis of Lewis acid-base adducts as thermally activated delayed fluorescence radical emitters for color-tunable displays and encryption via inkjet printing, Chemical Engineering Journal 2022.
8. Yu Y, Xing H, Liu D, Zhao MY, Sung HHY, Williams ID, Lam JWY, Xie GH*, Zhao Z* & Tang BZ*, Solution-processed AIEgen NIR OLEDs with EQE approaching 15%, Angewandte Chemie International Edition 2022.
9. Kang N, Cho S, Leonhardt EE, Liu C, Verkhoturov SV, Woodward WHH, Eller MJ, Yuan TY, Fitzgibbons TC, Borguet YP, Jahnke AA, Sokolov AN, Mcintire T, Reinhardt C, Fang L, Schweikert EA, Spencer LP, Sun GR*, Xie GH*, Trefonas P* & Wooley K*, Topological design of highly anisotropic aligned hole transporting molecular bottlebrushes for solution-processed OLEDs, Journal of the American Chemical Society 2022.
10. Wang T, Li KF, Yao B, Chen YN, Zhan H*, Xie ZY, Xie GH*, Yi XH & Cheng YX *, Rigidity and polymerization amplified red thermally activated delayed fluorescence polymers for constructing red and single-emissive-layer white OLEDs, Advanced Functional Materials 2020.
11. Zeng XJ, Huang RJ, Zhong C, Xie GH*, Ning WM, Huang ML, Ni F, Dias FB* & Yang CL *, Achieving 21% external quantum efficiency for solution-processed sky-blue thermally activated delayed fluorescence OLEDs by means of multi-donor/acceptor emitter with through-space/-bond charge transfer, Advanced Science 2020.
12. Zheng XJ, Zhu WC, Zhang C, Zhang Y, Zhong C, Li H*, Xie GH*, Wang XJ & Yang CL*, Self-assembly of a highly emissive pure organic imine-based stack for electroluminescence and cell imaging, Journal of the American Chemical Society 2019.
13. Xie MC, Han CM, Liang QQ, Zhang J, Xie GH* & Hui Xu*, Highly efficient sky blue electroluminescence from ligand-activated copper iodide clusters: overcoming the limitations of cluster light-emitting diodes, Science Advances 2019.
14. Liu TX, Xie GH*, Zhong C, Gong SL & Yang CL*; Boosting the efficiency of near-infrared fluorescent OLED with an electroluminescent peak of nearly 800 nm by sensitizer-based cascade energy transfer, Advanced Functional Materials 2018.
15. Xie GH, Luo JJ, Huang ML, Chen TH, Wu KL, Gong SL, & Yang CL*, Inheriting the characteristics of TADF small-molecule by side-chain engineering strategy to enable bluish-green polymers with high PLQYs up to 74% and external quantum efficiency over 16% in light-emitting diodes, Advanced Materials 2017.
