段昌奎 教授
发布人:中科院微观磁共振重点实验室  发布时间:2020-05-20   动态浏览次数:7526

姓名

段昌奎 教授

工作单位:

中国科学技术大学物理系

中国科学院微观磁共振重点实验室

电话:

0551-63606287

E-mail:

ckduan(AT)ustc.edu.cn(请将邮箱(AT)替换为@使用)

  

长期从事固体掺杂及点缺陷的机理、固体发光、固态量子体系等研究,主要手段为基于密度泛函的第一性原理计算。2007年作为第一完成人获得重庆市自然科学一等奖; 提出稀土f-d跃迁简化模型和第一性原理-唯像模型相结合方法并推广应用;发展了多种基于稀土或过渡金属激活离子荧光的温度传感方案;揭示了后过渡金属离子掺杂中心激发态结构和动力学过程。发表包括Science (1)Nature Communications (2)Physical Review Letters (10)Phyical Review A/B/D (29)Chemical Society Reviews (1)Coordination Chemistry Reviews (1)Nano Letters(1)等在内的240余篇SCI科研论文, SCI引用6000余次,H-INDEX =42。近期主要从事过渡金属离子、后过渡金属离子掺杂中心和固体本征缺陷的激发态结构和光、电、磁性质及量子传感相关的研究。

发表记录:https://publons.com/researcher/1429860/chang-kui-duan/

(或见:http://lmmr.ustc.edu.cn/13293/list.htm


  • 学历:

1990.9-1993.6   中国科学技术大学物理系固体光学与材料专业    本科

1993.9-1998.6   中国科学技术大学物理系凝聚态物理专业        博士


  • 主要工作经历:

1999.3-2003.8   新西兰Canterbury大学物理与天文系            博士后

2003.8-2006.10  重庆邮电大学光电学院                        教授

2006.10-2008.10 香港城市大学生物与化学系(部分时间在重庆)    访问学者

2008.10-2009.11 重庆邮电大学数理学院                        副院长

2009.11-2010.8  香港城市大学生物与化学系(部分时间在重庆)    高访

2010.9-2011.1   重庆邮电大学数理学院                        副院长

2011.2 至今     中国科学技术大学物理系                      教授



   科研项目或课题:

1.金刚石色心量子计算研究 2018YFA0306602 国家科技部

2.全固态重频高功率快激光晶体的基础研究 61635012 国家自然科学基金委



   2021-2022作为通讯作者的研究论文:

1.      Qiaoling Chen, Longbing Shang, Haoming Xu, Chonggeng Ma, Peter A. Tanner*, and Chang-KuiDuan*, Rationalizing the structural changes and spectra of manganese and their temperature dependence in a series of garnets with first-principles calculations, Physical Review B 105, 035158 (2022).

2.      Weiguo Jing, Mingzhe Liu, Jun Wen,Lixin Ning, Min Yin, and Chang-KuiDuan*, First-principles study of Ti-doped sapphire. I. Formation and optical transition properties of titanium pairs, Physical Review B 104, 165103 (2021).

3.      Weiguo Jing, Mingzhe Liu, Jun Wen, Lixin Ning, Min Yin, and Chang-KuiDuan*, First-principles study of Ti-doped sapphire. II. Formation and reduction of complex defects, Physical Review B 104, 165104 (2021).

4.      Bibo Lou, Jun Wen, Lixin Ning, Min Yin*, Chong-Geng Ma*, and Chang-KuiDuan*, Understanding the defect levels and photoluminescence in a series of bismuth-doped perovskite oxides: First-principles study, Physical Review B 104, 115101 (2021).

5.      Bibo Lou, Jun Wen, JiajiaCai, YauYuen Yeung* Min Yin*, and Chang-KuiDuan*, First-principles study of Bi3+-related luminescence and traps in the perovskites CaMO3(M=Zr,Sn,Ti), Physical Review B 103, 075109 (2021).

6.      Zhaoyang Feng, Bibo Lou, Qiaoling Chen, Min Yin, Chong-Geng Ma, and Chang-KuiDuan*,  Self-Activated and Bismuth-Related Photoluminescence in Rare-Earth Vanadate, Niobate, and Tantalate Series—A First-Principles Study, Inorganic Chemistry 60, 16614 (2021).

7.      Zhaoyang Feng, Bibo Lou, Min Yin, Yau-yuen Yeung, Hong-Tao Sun*, and Chang-KuiDuan*, First-Principles Study of Bi3+-Related Luminescence and Electron and Hole Traps in (Y/Lu/La) PO4, Inorganic Chemistry 60, 4434 (2021).

8.      Qi Liu, ZhaoYang Feng, Hong Li, Qing Zhao, Naoto Shirahata, Yoshihiro Kuroiwa, Chikako Moriyoshi, Chang-KuiDuan*, and HongTao Sun*,  Non-Rare-Earth UVC Persistent Phosphors Enabled by Bismuth Doping, Advanced Optical Materials 9, 2002065 (2021).

9.      Mingzhe Liu, Chang-KuiDuan*, Peter A. Tanner*, Chong-Geng Ma, and Min Yin, Rationalizing the Photoluminescence of Bi3+ and Sb3+ in Double Perovskite Halide Crystals, J. Phys. Chem. C 125, 26670 (2021).

10.   Zhaoyang Feng, Bibo Lou, Qiaoling Chen, Min Yin, Chong-Geng Ma, and Chang-KuiDuan*, Self-Activated and Bismuth-Related Photoluminescence in Rare-Earth Vanadate, Niobate, and Tantalate Series—A First-Principles Study, Inorganic Chemistry 60, 16614 (2021).

11.   Qiaoling Chen, Longbing Shang, Haoming Xu, Chonggeng Ma, and Chang-KuiDuan*, Multiple-Valence and Visible to Near-Infrared Photoluminescence of Manganese in ZnGa2O4: A First-Principles Study, J. Phys. Chem. C 125, 21780 (2021).

12.   Qiaoling Chen, Weiguo Jing, Yau-Yuen Yeung, Min Yin*, and Chang-KuiDuan*, Mechanisms of bismuth-activated near-infrared photoluminescence– a first-principles study on the MXCl3 series, Phys. Chem. Chem. Phys. 23, 17420 (2021).

13.   Qiaoling Chen, Bibo Lou, Weiguo Jing, Min Yin, YauYuen Yeung, Liangbi Su, ChangKuiDuan*, First principles study on low valence states photoluminescence in Bi-doped M2B5O9Cl crystals, Journal of Alloys and Compounds 863, 158704 (2021).

14.   Hu, Fangfang; Jiang, Yuncheng; Chen, Yihang, Rongfei Wei, Hai Guo*, Chang-KuiDuan*, Optical thermometry based on the thermal coupling of low-lying levels of Sm3+ in highly stable NaGdF4 glass ceramics, Journal of Alloys and Compounds 867, 159160 (2021).