一、个人基本情况

姓名： 侯志灵

职称： 教授

所在部门： 365best体育官网登录

社会兼职：中国材料学会超材料分会理事、北京电子学会材料电磁测量专委会委员、中国复合材料学会电磁复合材料分会委员。

二、主要研究方向

主要从事于微波与光学材料及器件研究，包括电磁波吸收及屏蔽材料、透波材料、光热材料与光电探测材料、非线性电输运材料及器件等。

招收物理学、光学工程、材料科学与工程等相关专业的本科生和研究生。

三、教育与工作经历

2024年1月 至今，365亚洲体育网入口，365best体育官网登录， 教授

2003年4月-2024年1月，北京化工大学，讲师、副教授、教授

四、主要科研项目

主持/完成国家自然科学基金面上项目、其他纵向项目和企事业单位横向项目等

五、代表性成果与荣誉

发表的论文：

1. Cai, B.^#; Hou, Z.-L.^#; Qi, Y.-Y.; Zhao, P.-Y.; Peng, H.-L.; Zhang, Y.; Koo, M. C.; Yue, T.; Hu, P.; Liu, L.-M.; Wang, G.-S^*., Facet-modulated ferroelectric polymers, Nature Communications 2026, 17 (1), 2065.

2. Zhang, S.^#; Wu, J.^#; Hou, Z.-L.^#; Hu, P.; Cai, B.; Liang, C.; Zhou, L.; Liang, W.; Xue, Y.; Koo, M. C.; Zhao, P.-Y.; Liu, L.-M.; Liu, M.; Wang, G.-S^*., Regular-wrinkling tunable MXene lattice for electromagnetic interference shielding, Nature Communications 2026, 17 (1), 1275.

3. Chen, Q.; Ma, Q.; Hu, Z.; Zhang, J^*.; Lin, C.; Ge, J.; Bi, S.; Hou, Z.-L.*, Breaking Permittivity-Loss Constraint via Surface and Bulk Carrier Engineering in Topological Insulator Bi₂Te₃, Advanced Functional Materials 2026, 36 (22), e18771.

4. Liu, X.-H.; Cai, J.-N.; Zhang, J.-Y^*.; Zhao, P.-Y.; Wang, G.-S.; Bi, S.; Hou, Z.-L.*, Surface-state-constrained topological insulator Bi₂Te₃ nanorods for electromagnetic wave trapping and conversion into electricity, Journal of Materials Science & Technology 2026, 244, 149-155.

5. Wang, H.-Y.; Hu, P.; Sun, X.-B.; Hou, Z.-L.; Zhao, P.-Y.; Zhou, L.; Yang, S.-H.; Geng, C.; Zhu, Y.; Wu, X.; Wang, G.-S*., Bioinspired Disordered Aerogel for Omnidirectional Terahertz Response, Advanced Materials 2025, 37 (10), 2418889.

6. Zhang, J.; Wang, X.; Cai, J.; Ma, X.; Hu, Z.; Lin, C.; Bi, S.; Yu, J.; Hou, Z.-L.*, Multifunctional Bi₂Se₃ ceramic nanosheets compatible variable capacitor and tunable EMI shielding, Journal of Advanced Ceramics 2025, 14 (12), 9221211.

7. Cai, B.; Zhou, L.; Zhao, P.-Y.; Peng, H.-L.; Hou, Z.-L.;et.al, Interface-induced dual-pinning mechanism enhances low-frequency electromagnetic wave loss, Nature communications 2024, 15 (1), 3299-3299.

8. Hou, Z.-L.*; Gao, X.; Zhang, J.; Wang, G., A perspective on impedance matching and resonance absorption mechanism for electromagnetic wave absorbing, Carbon 2024, 222, 118935.

9. Qi, X.; Zhang, J.-Y. ^*; Cai, J.; Chu, X.; Shao, X.^*; Hou, Z.-L.*, Delicate construction of Bi₂Te₃ nanosheets for striking artificial synapses and broadband photodetecting, Journal of Alloys and Compounds 2024, 1002, 175350.

10. Li, C.-J.; Wang, X.; Liu, X.; Zhang, J.; Bi, S.; Hou, Z.-L.*, Broadband and strong microwave absorption combining excellent EMI shielding of VGCF/carbonyl iron composites derived from synergistic magnetic and dielectric losses, Carbon 2023, 214, 118383.

11. Gao, X.; Wang, X.; Cai, J.; Zhang, Y.; Zhang, J.; Bi, S.; Hou, Z.-L.*, CNT cluster arrays grown on carbon fiber for excellent green EMI shielding and microwave absorbing, Carbon 2023, 211, 118083.

12. Cai, J.; Li, L.; Chen, Z.; Zhang, J.; Hou, Z.-L.*, High performance selective light absorber based on nickel nanopillar array for photothermal conversion, Journal of Applied Physics 2023, 134 (23), 233104.

13. Hou, Z.-L.*; Ma, X.; Zhang, J.; Li, C.; Wang, Y.; Cao, M., Fascinating Electrical Transport Behavior of Topological Insulator Bi₂Te₃ Nanorods: Toward Electrically Responsive Smart Materials, Small 2022, 18 (51), 2205624.

14. Hou, Z.-L.*; Du, K.; Zhang, Y.; Bi, S.; Zhang, J., Nanoarchitectonics of MnO₂ nanotubes as sea urchin-like aggregates for dielectric response and microwave absorption with a wide concentration domain, Nano Research 2022, 2604–2610.

15. Xue, W.; Yang, G.; Bi, S.; Zhang, J.; Hou, Z.-L.*, Construction of caterpillar-like hierarchically structured Co/MnO/CNTs derived from MnO₂/ZIF-8@ZIF-67 for electromagnetic wave absorption, Carbon 2021, 173, 521-527.

所获的荣誉：

获北京市教学成果二等奖2项，省部级科学技术二等奖3项。

八、联系方式

地址：北京市朝阳区平乐园100号365best体育官网登录

邮编：100124

办公房间：数理楼202

电话：010-67399505

E-mail：houzl@bjut.edu.cn