个人资料
- 直属机构:电子信息学院
- 联系电话:
- 性别:男
- 电子邮箱:yjzhang1223@suda.edu.cn
- 专业技术职务:
- 办公地址:
- 毕业院校:同济大学/UT-AUSTIN
- 通讯地址:
- 学位:工学博士
- 邮编:
- 学历:研究生学历
- 传真:
教育经历
- 工学学士,2009-2013,电子科学与技术系,湖南大学,学士
- 工学博士,2013-2019,电子科学与技术系,同济大学,工学博士
- 联合培养博士,2017-2019,电气与计算机工程系,得州大学奥斯汀分校
工作经历
- 2019-至今,www.优德88.cpm 电子信息学院
个人简历
张允晶,硕士生导师,曾获省部级教学竞赛奖,2022年www.优德88.cpm 优秀毕业设计指导教师,2023国际电磁研究进展大会PIERS“青年科学家(YSA)”奖。
指导学生:
目前指导硕士生4名:
2021级研究生杨恒/田颖获研究生国家奖学金
指导本科生十余名:
郑浩获2022年www.优德88.cpm 优秀毕业设计论文
李苗等获2021年全国大学生嵌入式芯片与系统设计竞赛全国总决赛三等奖
李苗等获2021年电子设计竞赛省二等奖
应嘉浩等获2022年中国大学生计算机设计大赛全国二等奖
尹天雨等获2022年电子设计竞赛省二等奖
乔洪煜寒等获2023年电子设计竞赛二等奖
社会及学术任职
IEEE会员/中国电子学会会员
担任IEEE TAP/IEEE SENS. J./IEEE AWPL等期刊审稿人
2023PIERS大会微波传感测量分会场主席
国家自然科学基金项目评审人
近期学术活动安排
19-22,Nov.2023 将参加亚太天线与传播会议2023APCAP
21-25,April 2024 将参加光子与电磁学研究国际研讨会(电磁研究进展大会)PIERS2024
11-14,April 2024 将参加首届下一代电子与光子学国际会议INGEP2024
研究领域
射频/微波传感与测量:利用射频/微波穿透性实现对待测物的无损/无创测量与传感
电磁调控新方法:基于超表面及增益元件对电磁波相位/极化/幅值进行高自由度调控
小型化/可穿戴/抗金属UHF RFID标签与阅读器天线设计
电小天线设计理论与技术
材料电磁参数测量技术
电场操纵离子技术
电磁仿真算法及应用
微波功率传输系统设计
开授课程
- 1、《电磁场与电磁波》,大三上学期
- 2、《微波技术与天线》,大三下学期
- 3、《射频识别技术与应用》,大三上学期
- 4、《射频与微波电路设计技术》,大三下学期
科研项目
- 1、基于PT对称电路的无创高灵敏血液射频介电特性测量新方法研究,2021-2023,国家自然科学基金青年项目,主持
- 2、UHF频段高阶PT对称电路机理分析及其无损传感应用,2020-2023,江苏省自然科学基金青年项目,主持
- 3、危险气体及化学战剂检测模块研发,2020-2023,企业横向,主持
- 4、基于增益-损耗机制的电磁散射调控方法研究,2021-2023,省部级项目,主持
- 5、超高分辨率无损离子迁移谱的设计与开发,2021-2023,企业产品研发项目,主持
论文
- 1、Y. J. Zhang*, J. L. Yong, Y. Tian, and Y. He, 'High Sensitivity Detection Method for Liquid Concentrations Based on Coupled Microwave Resonators,' IEEE Transactions on Instrumentation and Measurement, vol. 72, pp. 1-11, 2023, Art no. 8003011.
- 2、 H. Yang, S. C. Wang, P. Li, Y. He, and Y. J. Zhang*, 'Broadband Multifunctional Reconfigurable Polarization Conversion Metasurface,' Accepted, IEEE Transactions on Antennas and Propagation.
- 3、 J.Y. LU, Y.J. ZHANG*, L.F. LI, X.L. HE, P. LI*, 'Advance in Structures for Lossless Ion Manipulations,' CHINESE JOURNAL OF ANALYTICAL CHEMISTRY(分析化学) 50 (12), 1783-1795.
- 4、Y. J. Zhang*, Y. Tian, M. S. Tong, Y. He, 'Enhanced-Sensitivity Noncontact Measurement of Liquid Concentration Based on Passive GPT-symmetry,' IEEE Sensors Journal, vol. 22, no. 1, pp. 11184-11193, Jun.1 2022.
- 5、Y. J. Mao, Y. J. Zhang*, Z. R. Chen and M. S. Tong, 'A Noncontact Microwave Sensor Based on Cylindrical Resonator for Detecting Concentration of Liquid Solutions,' IEEE Sensors Journal, vol. 21, no. 2, pp. 1208-1214, Jan. 2021.
- 6、Y. J. Zhang, P. Li, V. Galdi, M. S. Tong, A. Alù,“Manipulating the scattering pattern with non-Hermitian particle arrays”, Optics Express 28 (13), 19492-19507, 2020.
- 7、Y. J. Zhang, H. Y. Kwon, M. Ali Miri, Efthymios Kallos, Helena Cano-Garcia, M. S. Tong, and A. Alu, “Noninvasive Glucose Sensor Based on Parity-Time Symmetry,” Phys. Rev. Applied, 11, 044049, April 2019.
- 8、Y. J. Zhang, R. X. Gao, Y. He, and M. S. Tong, “Effective Design of Microstrip-Line Chipless RFID Tags Based on Filter Theory,” IEEE Tran. Antennas Propag., vol. 67, no. 3, pp. 1428-1436, March 2019.
- 9、Y. J. Zhang, D. Wang, L. Zhang and M. S. Tong, “A Modified Planar Inverted-F Antenna with Triple-Band for Wi-Fi and LTE Applications,” Progress in Electromagnetics Research M, vol. 73, pp. 173-181, 2018.
- 10、Y. J. Zhang, D. Wang and M. S. Tong, “An Adjustable Quarter-Wavelength Meandered Dipole Antenna with Slotted Ground for Metallically and Airily Mounted RFID Tag,” IEEE Tran. Antennas Propag., vol. 65, no. 6, pp. 2890-2898, June 2017.
- 11、L Li, T Zhang, D Wang, Y Zhang, X He, X Wang, P Li, 'Portable Digital Linear Ion Trap Mass Spectrometer Based on Separate-Region Corona Discharge Ionization Source for On-Site Rapid Detection of Illegal Drugs,' Molecules, vol. 27, no. 11, 2022.
- 12、X He, J Zhou, W Xuan, Z Zhan, Y Zhang, P Li, L Kong, 'Single-Crystalline LiTaO₃ Film-Based High-Frequency Surface Acoustic Wave Resonators and Electronics Applications,', IEEE Microwave and Wireless Components Letters, vol. 32, no. 4, April 2022.
- 13、Conference papers:
- 14、Y. J. Zhang, D. Wang, and M. S. Tong, “A Slot UHF RFID Tag Antenna with a Shorted Stub for Application to Metallic Objects,” Proc. Prog. in Electro. Res. Symp., Shanghai, China, Aug. 2016, pp. 861-865.
- 15、Y. J. Zhang, D. Wang, S. C. Wang, and M. S. Tong, “Design of A Compact Ultrawideband Microstrip Monopole Antenna,” Proc. IEEE AP-S Int. Symp. USNC/URSI Nat. Radio Meeting, Fajardo, 2016.
- 16、Y. J. Zhang and M. S. Tong, “A Novel Design Method for Metallically and Airily Mountable RFID Tag Antennas,” Proc. IEEE AP-S Int. Symp. USNC/URSI Nat. Radio Meeting, San Diego, CA, 2017.
- 17、Y. J. Zhang, D. Wang, and M. S. Tong, “Metamaterial UHF RFID Tag With Enhanced Gain,” Proc. Prog. in Electro. Res. Symp., Singapore, 2017.
- 18、Y. J. Zhang, D. Wang, X. J. Huang, and M. S. Tong, “Design of RFID Tag Antenna Based on the Cole-Cole Model of Human Abdomen,” Proc. Prog. in Electro. Res. Symp., Toyama, Japan, Aug. 2018.
- 19、Y. J. Zhang and M. S. Tong, “A Low-profile Dual-band-pass FSS Applied to Wi-Fi Communication Systems,” IEEE EMC/APEMC, Singapore, 2018, pp. 1184-1186.
- 20、Y. J. Zhang, M. S. Tong and A. Alu, “Zero-Forward Scattering for Omnidirectional Incidence using non-Hermitian Particles,” Proc. IEEE AP-S Int. Symp. USNC/URSI Nat. Radio Meeting, Atlanta, USA, July. 2019.
- 21、Y. J. Zhang, P. Li, H. N. Zeng, M. S. Tong, 'Design of a Tunable UHF RFID Tag Based on Rectangular Loop Antennas for Metallic Objects,' (Best student paper), Photonics & Electromagnetics Research Symposium-Fall, 300-306, Xiamen, China, Dec. 2019.
- 22、Y. J. Zhang, P. Li, M. S. Tong, 'Parity-time symmetry sensor circuits based on shunt and series RLC circuits,' Proc. IEEE AP-S Int. Symp. USNC/URSI Nat. Radio Meeting, Montreal (Held as a virtual conference due to the COVID-19), Canada, Jul. 2020.
- 23、Y. Zhang, X. He and P. Li, A noncontact RF sensor with loop antennas based on PT-symmetry, 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI), 2021, pp. 1047-1048.
- 24、W. J. Liu, J. R. Wang, M. S. Tong and Y. J. Zhang, Optimized Design of a Dual-Band PIFA Antenna Based on Genetic Algorithm, 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI), 2021, pp. 1783-1784.
- 25、J. R. Wang, Y. J. Zhang and M. S. Tong, A Broadband Metasurface with Voltage-Controlled Transmission Phase, 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI), 2021, pp. 1229-1230.
- 26、Y. J. Zhang, P. Li, X. He and M. S. Tong, A Resonator-type Sensor with Enhanced Sensitivity For Noninvasively Detecting the Variation of Permittivity of Liquids, 2021 Photonics & Electromagnetics Research Symposium (PIERS), 2021, pp. 501-508.
科技成果
- 1、一种非接触式溶液浓度无线测量装置及方法,ZL202110963141.3,www.优德88.cpm ,张允晶 , 李鹏 , 何兴理 , 窦玉江 , 李灵锋,发明,已授权
- 2、一种微波谐振腔装置及溶液浓度变化的测量方法,ZL202210717956.8,www.优德88.cpm ,张允晶 , 李鹏 , 田颖,发明,已授权
- 3、一种纳米球光场的前向零散射调控方法,ZL202010113105.3,www.优德88.cpm ,张允晶 , 李鹏 , 窦玉江 , 何兴理 , 李灵峰,发明,已授权
荣誉及奖励
招生信息
所培养研究生可掌握扎实的电磁电路理论,电磁仿真建模分析能力,实验操作及数据处理能力,毕业后可从事射频系统设计、微波器件设计、IC设计等相关工作或研究。
要求:对新事物感兴趣、乐于钻研、态度认真。
可招收2-3名研究生,欢迎联系报考!
Email: yjzhang1223@suda.edu.cn