侯晴

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。

2016.09-2021.03 伦敦大学学院 (University College London) 博士获Dean’s Prize

2013.09-2016.06 山东大学    硕士  获省优秀学生

2009.09-2013.06 山东大学    本科  获省优秀毕业生

主持国家自然科学基金1项、省部级科研项目1项。

发表SCI论文40余篇，h因子15，其中一作/通讯作者20余篇，ESI高被引论文3篇。

研究方向

1) 光学神经网络

2) 超材料

3) 光电材料理论计算

代表性论文专著（含专利）

1) Yang, Pengtao, et al. Sandwich-structured BaTiO₃/Ag ceramics embedded with a negative-epsilon layer to obtain high permittivity and suppress dielectric loss. Journal of the European Ceramic Society 44.4 (2024): 2173-2181. (通讯)

2) Sun, Kai, et al. Magnetic‐driven broadband epsilon‐near‐zero materials at radio frequency. Advanced Functional Materials 34.2 (2024): 2306747.

3) Du, Houmeng, 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 15.13 (2023): 17103-17112.(通讯)

4) Zhang, Xingfan, et al. Toward a consistent prediction of defect chemistry in CeO₂. Chemistry of Materials 35.1 (2022): 207-227.

5) Hou, Qing, et al. Low‐loss percolative epsilon‐negative composites derived from the ultra‐low percolation threshold. Polymer Composites 43.9 (2022): 6106-6112.

6) Hou, Qing, et al. Tuning negative permittivity by anodization of A 3D copper network. ECS Journal of Solid State Science and Technology 11.4 (2022): 043014.

7) Hou, Qing, et al. The interplay of interstitial and substitutional copper in zinc oxide. Frontiers in Chemistry 9 (2021): 780935.

8) Xie, Peitao, et al. Epsilon‐negative carbon aerogels with state transition from dielectric to degenerate semiconductor. Advanced Electronic Materials 7.3 (2021): 2000877.

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

10) Xie, Peitao, et al. Tunneling-induced negative permittivity in Ni/MnO nanocomposites by a bio-gel derived strategy. Journal of Materials Chemistry C 8.9 (2020): 3029-3039.  （高被引）

11) Sun, Kai, et al. Tunable negative permittivity in flexible graphene/PDMS metacomposites. The Journal of Physical Chemistry C 123.38 (2019): 23635-23642.  （通讯，高被引）

12) Hou, Qing, et al. Defect formation in In₂O₃ and SnO₂: A new atomistic approach based on accurate lattice energies. Journal of Materials Chemistry C 6.45 (2018): 12386-12395.

13) Hou, Qing, et al. Ultrahigh dielectric loss of epsilon-negative copper granular composites. Materials Letters 169 (2016): 86-89.

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

15) Hou, Qing, et al. Experimental realization of tunable negative permittivity in percolative Fe₇₈Si₉B₁₃/epoxy composites. RSC Advances 5.13 (2015): 9472-9475.

联系方式

邮箱：qinghou@usst.edu.cn