Qing Zhao, Doctor of Microelectronics and solid State Electronics, Associate researcher, master tutor. After graduating from the Department of Technical Physics of Xidian University in 1998, she participated in scientific research at the former Xinjiang Institute of Physics, Chinese Academy of Sciences. Dr. Zhao mainly engaged in the preparation and performance research of multi-oxide sensitive functional materials and the development of components. The preparation and properties of gas sensitive functional materials and temperature sensitive functional materials were studied by high temperature solid phase method, microwave hydrothermal method and microwave sintering. In recent years, she has devoted herself to the preparation of high temperature composite materials and the design and manufacture of high temperature thermistor. As the project leader, she has presided over the projects of National Natural Science Foundation of China, Light of West China of Chinese Academy of Sciences, Natural Science Foundation of Xinjiang Autonomous Region, etc. As the main accomplisher, she has participated in the scientific research projects in this field, such as the National Natural Science Foundation of China, the National 863 Program, the Innovation Fund of Chinese Academy of Sciences, and the Scientific Research Equipment Project of Chinese Academy of Sciences. She has won the second prize of Scientific and Technological Contribution from the Chinese Academy of Sciences and the first prize of Scientific and technological Progress from Xinjiang Uygur Autonomous Region. She has published more than 20 papers and been granted 7 national invention patents. 

Main research fields and achievements: 

The preparation and performance of composite functional ceramic materials and the design, manufacture and reliability of components. 

Representative articles: 

[1] Qilu Ma，Qing Zhao，Xuemei Jia，Donglin He, Aimin Chang. Preparation and characterization for LaMnO₃ and 0.3LaMnO₃–0.7Y₂O₃ high temperature bilayer structure NTC thermistors. Journal of Materials Science: Materials in Electronics，2019, 30:11005–11010.  (Corresponding author) 

[2] Along Ga, Xinglian Yin, Qing Zhao, Donglin He, Yan Zhao, Aimin Chang. A study based  on MgAl₂O₄–LaCrO₃ composite ceramics for hightemperature NTC thermistors. Journal of Materials Science: Materials in Electronics，2019, 30:11117–11122. (Corresponding author) 

[3] Xinglian Yina, Qing Zhao, Bo Zhang, Donglin He, Aimin Chang. A study based on the oxidation vaporization of LaCrO₃ . Journal of the American Ceramic Society 2017，100: 5389–5394. (Corresponding author) 

[4] Ping Luo, Bo Zhang, Qing Zhao, Donglin He, Aimin Chang . Electrical characterization of 0.6MgAl₂O₄-0.4La_1？x Sr _x CrO₃ high temperature NTC thermistors. Journal of Materials Science: Materials in Electronics , 2017, 28：16036–16043. (Corresponding author) 

[5] Ping Luo, Bo Zhang, Qing Zhao, Donglin He,Aimin Chang. Characterization and electrical conductivity of La_1？xSr_xCrO₃ NTC ceramics. Journal of Materials Science: Materials in Electronics, 2017, 28:9265–9271. (Corresponding author) 

[6]Qing Zhao，Bo Zhang，Aimin Chang, Yiquan Wu. Electrical properties and aging mechanism of Y₂O₃–MCr_0.5Mn_0.5O₃ (M = Sm, Gd) composite NTC ceramics. Journal of Materials Science: Materials in Electronics, 2015, 26:4221–4225. 

[7] Qing Zhao，Bo Zhang，Jincheng Yao，Pengjun Zhao，Aimin Chang. New negative temperature coefficient thermistor ceramics in (Y₂O₃ + CeO₂)–LaCr_0.5Mn_0.5O₃ composite system . Journal of Materials Science: Materials in Electronics, 2014，25:3023–3027. 

Research Area: 

Functional ceramic materials and sensitive components