专家人才库数据--The Xinjiang Technical Institute of Physics & Chemistry.CAS

I Mainly engaged in research of the Functional ceramic materials: thermal ceramics, thermistors and the development of numerical methods.

I have received funding for the research from the National Natural Science Foundation of China and the West Light Foundation of The Chinese Academy of Sciences.

Selected Publications:

[1] B. Wang, J.C. Yao, J.H. Wang*, A.M. Chang*, Spinel-type high-entropy (Co_0.2Mn_0.2Fe_0.2Zn_0.2Ti_0.2)₍₃₎O₄ oxides constructed from disordered cations and oxygen vacancies, Journal of Alloys And Compounds, 2022,897,163188

[2] B. Wang, J.C. Yao, J.H. Wang, A.M. Chang, Enhanced Structural and Aging Stability in Cation-Disordered Spinel-Type Entropy-Stabilized Oxides for Thermistors, ACS Applied Electronic Materials 2022, 4,1089–1098.

[3]L.C Fan, J.C. Yao, P Huo, B Wang, Z.J Liu, A.M.Chang, J.H Wang, A novel MnCoNiCuZnO₅ complex-phase ceramic for negative temperature coefficient thermistors. Materials Science in Semiconductor Processing, 2022;142;106489

[4] B. Wang, J.C. Yao, P.J. Zhao, J.H. Wang, A.M. Chang, A comparative study of different oxidation states of raw materials on the properties of a novel medium-entropy Co_2.77Mn_1.71Fe_1.10Zn_0.42O₈thermistor materials, Materials Chemistry and Physics, 2022, 284, 126018.

[5] M.Y Guan, J.C. Yao, W.W Kong, J.H. Wang, A.M. Chang, Effects of Zn-doped on the microstructure and electrical properties of Mn_1.5-xCo_1.2Cu_0.3Zn_xO₄(0 ≤x≤0.5) NTC ceramics, Journal of Materials Science: Materials in Electronics, 2018, 29: 5082-5086.

Position in International Organization

[2] B. Wang, J.C. Yao, J.H. Wang*, A.M. Chang*, Enhanced Structural and Aging Stability in Cation-Disordered Spinel-Type Entropy-Stabilized Oxides for Thermistors, ACS Applied Electronic Materials 2022, 4,1089–1098.

[3]L.C Fan, J.C. Yao, P Huo, B Wang, Z.J Liu, A.M.Chang*, J.H Wang*, A novel MnCoNiCuZnO5 complex-phase ceramic for negative temperature coefficient thermistors. Materials Science in Semiconductor Processing, 2022;142;106489

[4] B. Wang, J.C. Yao, P.J. Zhao, J.H. Wang, A.M. Chang, A comparative study of different oxidation states of raw materials on the properties of a novel medium-entropy Co2.77Mn1.71Fe1.10Zn0.42O8 thermistor materials, Materials Chemistry and Physics, 2022, 284, 126018.

[5] M.Y Guan, J.C. Yao, W.W Kong, J.H. Wang*, A.M. Chang*, Effects of Zn-doped on the microstructure and electrical properties of Mn1.5-xCo1.2Cu0.3ZnxO4(0 ≤x≤0.5) NTC ceramics, Journal of Materials Science: Materials in Electronics, 2018, 29: 5082-5086.

[2] B. Wang, J.C. Yao, J.H. Wang*, A.M. Chang*, Enhanced Structural and Aging Stability in Cation-Disordered Spinel-Type Entropy-Stabilized Oxides for Thermistors, ACS Applied Electronic Materials 2022, 4,1089–1098.

[3]L.C Fan, J.C. Yao, P Huo, B Wang, Z.J Liu, A.M.Chang*, J.H Wang*, A novel MnCoNiCuZnO5 complex-phase ceramic for negative temperature coefficient thermistors. Materials Science in Semiconductor Processing, 2022;142;106489

[4] B. Wang, J.C. Yao, P.J. Zhao, J.H. Wang, A.M. Chang, A comparative study of different oxidation states of raw materials on the properties of a novel medium-entropy Co2.77Mn1.71Fe1.10Zn0.42O8 thermistor materials, Materials Chemistry and Physics, 2022, 284, 126018.

[5] M.Y Guan, J.C. Yao, W.W Kong, J.H. Wang*, A.M. Chang*, Effects of Zn-doped on the microstructure and electrical properties of Mn1.5-xCo1.2Cu0.3ZnxO4(0 ≤x≤0.5) NTC ceramics, Journal of Materials Science: Materials in Electronics, 2018, 29: 5082-5086.

[2] B. Wang, J.C. Yao, J.H. Wang, A.M. Chang, Enhanced Structural and Aging Stability in Cation-Disordered Spinel-Type Entropy-Stabilized Oxides for Thermistors, ACS Applied Electronic Materials 2022, 4,1089–1098.

[3]L.C Fan, J.C. Yao, P Huo, B Wang, Z.J Liu, A.M.Chang, J.H Wang, A novel MnCoNiCuZnO₅ complex-phase ceramic for negative temperature coefficient thermistors. Materials Science in Semiconductor Processing, 2022;142;106489

[4] B. Wang, J.C. Yao, P.J. Zhao, J.H. Wang, A.M. Chang, A comparative study of different oxidation states of raw materials on the properties of a novel medium-entropy Co_2.77Mn_1.71Fe_1.10Zn_0.42O₈thermistor materials, Materials Chemistry and Physics, 2022, 284, 126018.

[5] M.Y Guan, J.C. Yao, W.W Kong, J.H. Wang, A.M. Chang, Effects of Zn-doped on the microstructure and electrical properties of Mn_1.5-xCo_1.2Cu_0.3Zn_xO₄(0 ≤x≤0.5) NTC ceramics, Journal of Materials Science: Materials in Electronics, 2018, 29: 5082-5086.

[2] B. Wang, J.C. Yao, J.H. Wang, A.M. Chang, Enhanced Structural and Aging Stability in Cation-Disordered Spinel-Type Entropy-Stabilized Oxides for Thermistors, ACS Applied Electronic Materials 2022, 4,1089–1098.

[3]L.C Fan, J.C. Yao, P Huo, B Wang, Z.J Liu, A.M.Chang, J.H Wang, A novel MnCoNiCuZnO₅ complex-phase ceramic for negative temperature coefficient thermistors. Materials Science in Semiconductor Processing, 2022;142;106489

[4] B. Wang, J.C. Yao, P.J. Zhao, J.H. Wang, A.M. Chang, A comparative study of different oxidation states of raw materials on the properties of a novel medium-entropy Co_2.77Mn_1.71Fe_1.10Zn_0.42O₈thermistor materials, Materials Chemistry and Physics, 2022, 284, 126018.

[5] M.Y Guan, J.C. Yao, W.W Kong, J.H. Wang, A.M. Chang, Effects of Zn-doped on the microstructure and electrical properties of Mn_1.5-xCo_1.2Cu_0.3Zn_xO₄(0 ≤x≤0.5) NTC ceramics, Journal of Materials Science: Materials in Electronics, 2018, 29: 5082-5086.