侯晴

发布时间:2023-04-04浏览次数:557

个人简介

侯晴,讲师,硕士生导师,上海市浦江人才,上海理工大学“格致创新班”专业负责人。2021年获得伦敦大学学院(University College London)博士学位。主要研究方向包括半导体材料、光电材料理论计算、电磁超材料等。主持省部级科研项目1项,参与多项国家自然科学基金和省部级重点项目。在ACS Appl. Mater interfacesActa Mater等国际期刊上发表20余篇学术论文,其中ESI高被引论文3篇。


研究方向

1) 半导体材料

2) 电磁超材料

3) 光电材料理论计算


代表性论文专著(含专利)

1) Du, H., et al., Gold Sputtering at the Interfaces: An Easily Operated Strategy for Enhancing the Energy Storage Capability of Laminated Polymer Dielectrics. ACS Applied Materials & Interfaces, 2023. 15(13): p. 17103-17112.

2)  Zhu, L., et al., Computational study of native defects and defect migration in wurtzite AlN: an atomistic approach. Journal of Materials Chemistry A, 2023.

3) Hou, Q., et al., Lowloss percolative epsilonnegative composites derived from the ultralow percolation threshold. Polymer Composites 2022. 43(9): p. 6106-6112.

4) Hou, Q., et al., Tuning Negative Permittivity by Anodization of A 3D Copper Network. ECS Journal of Solid State Science and Technology, 2022. 11(4): p. 043014. 

5) Zhang, X., et al., Toward a consistent prediction of defect chemistry in ceo2. Chemistry of Materials, 2022. 35(1): p. 207-227.

6) Hou, Q., et al., The interplay of interstitial and substitutional copper in zinc oxide. Frontiers in Chemistry, 2021. 9: p. 1102. 

7) Xie, P., et al., EpsilonNegative Carbon Aerogels with State Transition from Dielectric to Degenerate Semiconductor. Advanced Electronic Materials, 2021. 7(3): p. 2000877.

8) Xie, P., et al., Tunneling-induced negative permittivity in Ni/MnO nanocomposites by a bio-gel derived strategy. Journal of Materials Chemistry C, 2020. 8(9): p. 3029-3039. 

9) Wang, Z., et al., Design and analysis of negative permittivity behaviors in barium titanate/nickel metacomposites. Acta Materialia, 2020. 185: p. 412-419.

10) Xie, P., et al., Tunneling-induced negative permittivity in Ni/MnO nanocomposites by a bio-gel derived strategy. Journal of Materials Chemistry C, 2020. 8(9): p. 3029-3039. 

11) Wang, Z., et al., Design and analysis of negative permittivity behaviors in barium titanate/nickel metacomposites. Acta Materialia, 2020. 185: p. 412-419.

12) Hou, Q., et al., Defect formation in In2O3 and SnO2: A new atomistic approach based on accurate lattice energies. Journal of Materials Chemistry C, 2018. 6(45): p. 12386-12395.

13) Hou, Q., et al., Negative permittivity in Fe–Si–Ni/epoxy magnetic composite materials at high-frequency. Materials Chemistry and Physics, 2016. 170: p. 113-117.

14) Hou, Q., et al., Ultrahigh dielectric loss of epsilon-negative copper granular composites. Materials Letters, 2016. 169: p. 86-89.

15) Hou, Q., et al., Experimental realization of tunable negative permittivity in percolative Fe₇₈Si₉B₁₃/epoxy composites. RSC advances, 2015.


联系方式

邮箱:qinghou@usst.edu.cn