Home  |  Contact  |  Sitemap  |  Chinese  |  CAS

Position in International Organization

  • Jincheng YAO  / 
  • Education:
    Direction:  
  • E-mail: yaojc@ms.xjb.ac.cn
    Postal Code: 830011
  • Address: Technical Institute of Physics & Chemistry Chinese Academy of Sciences 40-1 South Beijing Road Urumqi, Xinjiang 830011 China
Resume

2020/11-present: Professor, Material Physics and Chemistry Research Center, The Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Science.  

2012/9-2020/10: Associate Professor, Material Physics and Chemistry Research Center, The Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Science. 

Research Interests: 

Negative temperature coefficient thermal ceramic materials and devices; Fast Response Thermistor; Temperature Sensor 

 

Main Honor: 

[1]. The First Prize of Science and Technology Progress of Xinjiang Uygur Autonomous Region in 2020NO.1 

[2]. Second Prize of Science and Technology for Development Award of Chinese Academy of Sciences for Scientific and Technological Contribution in 2015NO.3 

 

Representative Publications:  

[1]. P. Huo, J.H. Wang, L.C. Fan, Z.J. Liu, B. Wang, A.M. Chang*, J.C. Yao*, Effect of solid contents on the electrical properties of Co2.77Mn1.71Fe1.10Zn0.42O8 ceramic prepared by slurry spin coating technique, Sensors and Actuators: A. Physical 2021, 332: 113156. 

[2]. B. Wang, J.H. Wang, A.M. Chang*, J.C. Yao*, Effects of particle sizes of starting oxides on the properties of spinel-type Mn1.1Co1.5Fe0.4O4 negative temperature coefficient ceramics, Ceramics International, 2021, 47: 2531-2537. 

[3]. B. Wang, J.C. Yao*, J.H. Wang, A.M. Chang*, Valence-induced distortion controls the resistivity and thermal stability of Co2.77Mn1.71Fe1.10Zn0.42O8 ceramics, Materials and Design, 2020,192: 108736. 

[4]. B. Wang, A.M. Chang*, J.H. Wang, J.C. Yao*, Influence of particle size on the structural and electrical properties of Mn1.1Co1.5Fe0.4O4 ceramics, Scripta Materialia, 2020, 188: 254-258. 

[5]. B. Wang, J.H. Wang, J.C. Yao*, A.M. Chang*, Bismuth and zinc co-modified Mn1.1Co1.5Fe0.4O4negative temperature coefficient sensitive ceramics: Structural and electrical characterization, Materials Chemistry and Physics, 2021, 257: 123604. 

[6]. B. Wang, J.H. Wang, D.S. Shang, A.M. Chang, J.C. Yao*, Sintering temperature and XPS analysis of Co2.77Mn1.71Fe1.10Zn0.42O8 NTC ceramics, Materials Chemistry and Physics, 2020, 239: 122098. 

[7]. B. Wang, J.H. Wang, A.M. Chang, J.C. Yao*, Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn1.1Co1.5Fe0.4O4 ceramics, RSC Advances, 2019, 9(44): 25488-25495. 

[8]. J.H. Chen, J.C. Yao*, A.M. Chang*, J.H. Wang, B. Wang, Pd/Ag thin film deposited on negative temperature coefficient (NTC) ceramics by direct current magnetron sputtering, Vacuum, 2019, 167: 227-233. 

Commitment to research the situation

2020/11-present: Professor, Material Physics and Chemistry Research Center, The Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Science.  

2012/9-2020/10: Associate Professor, Material Physics and Chemistry Research Center, The Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Science. 

Research Interests: 

Negative temperature coefficient thermal ceramic materials and devices; Fast Response Thermistor; Temperature Sensor 

 

Main Honor: 

[1]. The First Prize of Science and Technology Progress of Xinjiang Uygur Autonomous Region in 2020NO.1 

[2]. Second Prize of Science and Technology for Development Award of Chinese Academy of Sciences for Scientific and Technological Contribution in 2015NO.3 

 

Representative Publications:  

[1]. P. Huo, J.H. Wang, L.C. Fan, Z.J. Liu, B. Wang, A.M. Chang*, J.C. Yao*, Effect of solid contents on the electrical properties of Co2.77Mn1.71Fe1.10Zn0.42O8 ceramic prepared by slurry spin coating technique, Sensors and Actuators: A. Physical 2021, 332: 113156. 

[2]. B. Wang, J.H. Wang, A.M. Chang*, J.C. Yao*, Effects of particle sizes of starting oxides on the properties of spinel-type Mn1.1Co1.5Fe0.4O4 negative temperature coefficient ceramics, Ceramics International, 2021, 47: 2531-2537. 

[3]. B. Wang, J.C. Yao*, J.H. Wang, A.M. Chang*, Valence-induced distortion controls the resistivity and thermal stability of Co2.77Mn1.71Fe1.10Zn0.42O8 ceramics, Materials and Design, 2020,192: 108736. 

[4]. B. Wang, A.M. Chang*, J.H. Wang, J.C. Yao*, Influence of particle size on the structural and electrical properties of Mn1.1Co1.5Fe0.4O4 ceramics, Scripta Materialia, 2020, 188: 254-258. 

[5]. B. Wang, J.H. Wang, J.C. Yao*, A.M. Chang*, Bismuth and zinc co-modified Mn1.1Co1.5Fe0.4O4negative temperature coefficient sensitive ceramics: Structural and electrical characterization, Materials Chemistry and Physics, 2021, 257: 123604. 

[6]. B. Wang, J.H. Wang, D.S. Shang, A.M. Chang, J.C. Yao*, Sintering temperature and XPS analysis of Co2.77Mn1.71Fe1.10Zn0.42O8 NTC ceramics, Materials Chemistry and Physics, 2020, 239: 122098. 

[7]. B. Wang, J.H. Wang, A.M. Chang, J.C. Yao*, Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn1.1Co1.5Fe0.4O4 ceramics, RSC Advances, 2019, 9(44): 25488-25495. 

[8]. J.H. Chen, J.C. Yao*, A.M. Chang*, J.H. Wang, B. Wang, Pd/Ag thin film deposited on negative temperature coefficient (NTC) ceramics by direct current magnetron sputtering, Vacuum, 2019, 167: 227-233. 

Contact Us
(86) 991-3838931
lhskj@ms.xjb.ac.cn
(86)991-3838957
40-1 Beijing Road Urumqi, XinjiangChina

Copyright @ Xinjiang Techinical Institute of Physics & Chemistry. All Rights Reserved