陈哲


通信地址:广东省深圳市南山区南海大道3688号深圳大学致信楼N305

电话:13631639412

电邮:chenzhe@szu.edu.cn

教育经历

 

博士,电子工程


香港城市大学,电子工程系

20159– 20189

硕士,电子与通信工程


西安电子科技大学,电子工程学院

20129– 20151

学士,电子信息工程


西安电子科技大学,电子工程学院

20088– 20126

 

工作/实习经历

 

助理教授


深圳大学,电子与信息工程学院

20199

博士后


香港城市大学,毫米波及太赫兹国家重点实验室

201810– 20199

研究助理


香港城市大学深圳研究院,深圳毫米波宽带无线通信重点实验室

20155– 20158

天线工程师/实习


海通通讯电子有限公司,上海研发中心

20139– 20143

 

研究领域

 

可重构天线:利用液态介质、液态金属、开关二极管等,实现天线多个性能的可重构;

介质谐振器天线:利用各种介质材料,通过3D打印的加工方式,实现天线设计;

透镜天线:基于超材料的非谐振透镜天线,基于3D打印的介质透镜天线;

圆极化天线:设计宽带圆极化天线,小型化圆极化天线,宽角度等通量辐射圆极化天线;

Chipless射频识别标签天线:利用多个谐振频率实现编码,避免使用芯片,降低成本;

毫米波及太赫兹可重构天线:利用相变材料的可调特性实现毫米波及太赫兹天线的性能可重构;

5G移动终端中的毫米波封装天线:利用封装天线技术(AiP)设计应用于5G移动终端中的毫米波天线。

 

社会职责

 

天线专业期刊审稿人

IEEE Transactions on Antennas and Propagation

2018年至今

IEEE Antennas and Wireless Propagation Letters

2015年至今

IET Microwaves, Antennas & Propagation

2018年至今

IET Electronics Letters

2018年至今

Microwave and Optical Technology Letters

2018年至今

 

荣誉

 

深圳市高层次人才C类(“孔雀计划”C类人才)


2020


Outstanding Academic Performance Award(香港城市大学研究生杰出研究奖)


20172018


Research Tuition Scholarship(香港城市大学研究生学费奖学金)


2017 2018


Postgraduate Studentshipfor PhD study(香港大学教育资助委员会博士生学业奖学金)

2015 2018

 

成果

 

项目

1.       国家科学技术部,重点研发计划(国家质量基础的共性技术研究与应用)子课题,5G移动终端天线接口阻抗标定与多载波射频多天线链路切换技术研究,2019-122021-11,主持,33万,在研

2.       深圳大学,青年教师科研启动经费(自然科学),可重构介质谐振器天线研究,2019-92022-8,主持,20万,在研

期刊论文

1.       J. Ren, Z. Zhou, Z. H. Wei, H. M. Ren, Z. Chen, Y. Liu, and Y.   Z. Yin “Radiation pattern and polarization reconfigurable antenna using   dielectric liquid,” IEEE Transactions on Antennas and Propagation, 2020,   Early Access. (IF: 4.43, 中科院:2Top, JCR1).

2.      C. Han, L. Xiao, Z. Chen and T. Yuan, “Co-located   self-neutralized handset antenna pairs with complementary radiation patterns   for 5G MIMO applications,” IEEE Access, vol. 8, pp. 73151-73163, 2020. (IF: 4.098,   中科院:2, JCR1).

3.      X. Yuan, W. He, K. Hong, C. Han, Z. Chen and T. Yuan, “Ultra-wideband   MIMO antenna system with high element-isolation for 5G smartphone   application,” IEEE Access, vol. 8, pp. 56281-56289, 2020. (IF: 4.098,   中科院:2, JCR1).

4.      K. Hong, X. Zhang, L. Zhu, X. Bi, Z. Chen and T. Yuan, “A   self-balanced wideband patch antenna fed with a U-resonator for stable   radiation performance,” IEEE Antennas and Wireless Propagation Letters,   April 2020, vol. 19, no. 4, pp. 661-665. (IF: 3.51, 中科院:2, JCR1).

5.      S.M. Liao, B. J. Zhang, Z. Chen, C. Z. Han, F. Zhang and T. Yuan, “Wideband   miniaturized 8-element Sub-6 GHz MIMO antenna system for mobile handset   applications,” IEICE Electronics Express, 2019, pp.16-20190631. (IF:   0.586, 中科院:4, JCR3).

6.      Z. Chen, H. Wong, and J. Kelly, “A   polarization-reconfigurable glass dielectric resonator antenna using liquid   metal,” IEEE Transactions on Antennas   and Propagation, May 2019, vol. 67, no. 5, pp. 3427-3432. (IF: 4.43,   中科院:2Top, JCR1).

7.       Z. Chen, H. Wong, and Y. H. Liu, “A polarizer   integrated dielectric resonator antenna for polarization reconfigurability,” IEEE Transactions on Antennas and   Propagation, April 2019, vol. 67, no. 4, pp.   2723-2728. IF: 4.43,   中科院:2Top, JCR1区)

8.        Z. Chen and H. Wong, “Liquid dielectric resonator   antenna with circular polarization reconfigurability,” IEEE Transactions on Antennas and Propagation, Jan. 2018, vol.   66, no. 1, pp. 444-449. IF: 4.13, 中科院:2Top, JCR1区)

9.        Z. Chen and H. Wong, “Wideband glass and liquid   cylindrical dielectric resonator antenna for pattern reconfigurable design,” IEEE Transactions on Antennas and   Propagation, May 2017, vol. 65, no. 5, pp. 2157-2164. IF: 4.13, 中科院:2Top, JCR1区)

10.     Y. Liu, Z.   Chen, S. X. Gong, “Triple band-notched aperture UWB antenna using   hollow-cross-loop resonator”. Electronics   Letters, May 2014, vol.50, no.10, pp.728-730. IF: 1.155, 中科院:4, JCR3区)

会议论文

1.       Z. Chen, H. Wong, K. Wang and J. Xiang, “Polarization-reconfigurable   antennas with different liquid solutions,” 2019 IEEE   Conference on Antenna Measurements & Applications (CAMA), Kuta, Bali,   Indonesia, 2019, pp. 138-140.

2.       Z. Chen, H. Wong, J. Xiang and S. Liu, “Polarization-reconfigurable antennas   for internet of things,” 2019 International Conference on Microwave   and Millimeter Wave Technology (ICMMT), Guangzhou,   China, 2019, pp. 1-3.

3.       Z. Chen, H. Wong and J.   Xiang, “A polarization reconfigurable dielectric resonator antenna with agile   switch,” 2019 IEEE International Conference on Computational   Electromagnetics (ICCEM), Shanghai, China, 2019, pp. 1-2.

4.       Z. Chen, J. Xiang, and H. Wong, “Polarization reconfigurable   antenna with beam steering performance,”2018 IEEE RFID Technology and   Applications Conference (RFID-TA), Macau, 2018, pp.   1-3.

5.       Z. Chen and H. Wong, “A circularly polarized   reconfigurable dielectric resonator antenna,” 12th European Conference on   Antennas and Propagation (EuCAP 2018), London, 2018, pp. 1-3.

6.      Z. Chen, H. Wong, J. Xiang and J. Kelly, “Polarization   reconfigurable antenna with liquid metal,”2018 IEEE International   Conference on Computational Electromagnetics (ICCEM), Chengdu, 2018, pp. 1-3.

7.       Z. Chen, J. Xiang and H. Wong, “Pattern reconfigurable   antenna with flowing liquid switch,” 2017   International Applied Computational Electromagnetics Society Symposium (ACES),   Suzhou, 2017, pp. 1-2.

8.        Z. Chen, H. Wong, J. Xiang and B. L. Bu, “A   polarization-reconfigurable liquid dielectric resonator antenna with 3D   printing fabrication,” 2017   International Workshop on Electromagnetics (IWEM), London, 2017, pp.   121-123.

9.       Z. Chen and H. Wong, “Cross-arranged dielectric   resonator antenna with cross slot excitation,” 2016 International   Symposium on Antennas and Propagation (ISAP), Okinawa, 2016, pp. 378-379.

10.     Z. Chen, H. Wong, J. Xiang and P. T. Liu,   “Reconfigurable dielectric resonator antenna with 3D printed fabrication,” 2016   IEEE Conference on Antenna Measurements & Applications (CAMA),   Syracuse, NY, 2016, pp. 1-2.