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张 益

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副研究员,博士研究生导师

专业:电子科学与技术

方向:电磁场与微波技术

Email: yizhang_e@163.com

电话:15881154399

地址:bat365在线官网登录入口望江校区滨江楼B306-1

邮编:610065

 

研究内容与个人简介:

主要从事微波与材料相结合的研究方向,包括基于压电陶瓷、磁性、相变等材料的小型化、集成化射频/微波器件,微波材料处理,工业微波源等。曾赴美国宾西法利亚州立大学和东北大学交流访问。主持国家级项目两项,省部级项目一项,企业和JG横向多项,参与多项国家级项目。发表SCI论文20余篇,其中以第一/通信作者在国际高水平期刊发表论文10余篇,申请专利10余项,已授权6项。

 

学习和工作简历

2022-至今    bat365在线官网登录入口,副研究员

2019-2022    bat365在线官网登录入口,助理研究员

2017-2018年 美国东北大学,电子与计算机工程学院,联合培养;

2016-2017年 美国宾夕法尼亚州立大学,材料研究中心,联合培养;

2013-2018年 bat365在线官网登录入口 bat365正版唯一官网,博士;

2009-2013年 bat365在线官网登录入口 bat365正版唯一官网,学士;

 

科研项目

国家自然科学基金-面上基金,2024-2027,主持

国家自然科学基金-青年基金,2020-2022,主持;

JG纵向:XXX,2019-2021,主持;

四川省国际合作基金,2022-2023,主持;

企业横向,XXX,2021-2022,主持;

企业横向,XXX,2020-2021,主持;

JG纵向:XXX,2020-2021,参与;

 

部分代表性论文:

1.        Y. Zhang, D. Cai, C. Zhao, et al., “Nonreciprocal Isolating Bandpass Filter With Enhanced Isolation Using Metallized Ferrite”, IEEE Transactions on Microwave Theory and Techniques, 2020, 68(12);

2.        C. Lai, C. Zhao, K. Li, D. Cai, Y. Zhang*, et al., “Highly efficient microwave power system of magnetrons utilizing frequency-searching injection-locking technique with no phase shifter, IEEE Transactions on Microwave Theory and Techniques, 2020, 68(10);

3.        Y. Zhang, D. Agrawal, J. Cheng, et al. “Microwave Power Absorption Mechanism of Metallic Powders,” IEEE Transactions on Microwave Theory and Techniques, vol. 66 (5), 2018 ;

4.        K. Huang, J. Li, and Y. Zhang*, “Research on Dry Microwave Heating Infectious Aerosols or Droplets on Respirators”, IEEE Transactions on Microwave Theory and Techniques, 2021;

5.        C. Zhao, X. Li, D. K. Agrawal, Z. Yan, S. Qi, Y. Liu, T. Ma, Q. Chen*, Y. Zhang*, C. Wang, K. Huang, “Microwave atmospheric pressure plasma jet generated from substrate integrated waveguide resonator”, Plasma Processes and Polymers, Vol. 20(6), 2023. (封面论文)

6.        Y. Zhang, K. Huang, D. Agrawal, T. Slawecki, H. Zhu and Y. Yang, “Microwave Power System Based on a Combination of Two Magnetrons,” IEEE Transactions on Electron Devices, vol. 64 (10), 2017,

7.        Y. Yang, K. Li, J. Li, H. Zhu, Y. Zhang*, K. Huang, “Low-Cost, High-Power Jamming Transmitter Based on Magnetron. IEEE Transactions on Electron Devices,” IEEE Transactions on Electron Devices, vol. 67(7), 2020,

8.        C. Zhao, L. Xue, H. Shi, W. Chen, Y. Zhong, Y. Zhang*, Y. Zhou, K. Huang*, “Simultaneous degradation of p-nitrophenol and reduction of Cr(VI) in one step using microwave atmospheric pressure plasma”, Water Research, Vol. 212, 2022.

9.        Y. Zhang, W. Ye, P. Yuan, et al. “Analysis and experiments of self-injection magnetron,” Chinese Physics B, vol. 25(4), 2016,

10.    Y. Zhang, P. Yuan, W. Ye, et al. “Frequency qusai-locking and noise reduction of the self-injection qusai-locked magnetron,” International Journal of Applied Electromagnetics and Mechanics, vol. 51(1), 2016,

11.    C. Peng, Y. Liu, W. Luo, Z. Liu, B. Wang, L. Wu, C. Zhao, S. Qi, Y. Liu, C. Wang, Y. Zhang*, K. Huang, “Effect of Transverse DC Magnetic Field on the Impedance Matching and Morphology of a Microwave Atmospheric Pressure Plasma Jet”, IEEE Transactions on plasma science, Vol. 50, no. 1, 2022,

12.    C. Zhao, L. Xue, Y. Zhou, Y. Zhang, K. Huang, “A microwave atmospheric plasma strategy for fast and efficient degradation of aqueous p-nitrophenol”, Journal of Hazardous Materials, 2021;

13.    P. Yuan, Y. Zhang, W. Ye, et al. “Power-combining based on master–slave injection-locking magnetron,” Chinese Physics B, vol. 25(7), 2016,

14.    W. Ye, Y. Zhang, P. Yuan, et al. “Modeling and experimental studies of a side band power re-injection locked magnetron,” Chinese Physics B, vol. 25(12), 2016,

15.    J. Wang, Y. Wei, Y. He, C. Dong, X. Lin, H. Chen, X. Liang, C. Yu, M. Zhu, Y. Zhang, J. Ni, N. Sun, “Thermal annealing on the soft magnetism, microwave properties, and magnetostriction in Co-Fe-C alloy films”, Journal of Alloys and Compounds, 2021

16.    Y. He, C. Yu, S. Haidar, M. Zaeimbashi, G. Stephen, D. Heiman, Y. Wei, H. Chen, X. Liang, C. Dong, J. Wang, C. Tu, Y. Zhang, B. Chen, N. Sun, “High-Performance On-Chip Hot-Pressed NdFeB Hard Magnets for MEMS Applications”, IEEE Transactions on Magnetics, Vol. 57(4), 2021.

 

部分授权专利:

1.   张益,黄卡玛,杨阳,朱铧丞,张冰,陈倩,程飞;基于底馈的功率分配器和功率分配组件 ZL202010038057.6;

2.   张益,黄卡玛,杨阳,朱铧丞,王策;一种采用压电材料的微波等离子体射流激发装置 ZL202110277454.3;

3.   张益,黄卡玛,杨阳,朱铧丞,张冰,陈倩,程飞;基于磁控管负载特性的侧馈多端口频率调节装置和组件 ZL202010038924.6

4.   张益,黄卡玛,杨阳,朱铧丞,王策;一种基于相变材料的自适应电磁防护结构,ZL202110267474.2

5.   张益,黄卡玛,杨阳,朱铧丞,王策;一种微波激发常压等离子体射流的结构和阵列结构,ZL202110496953.1

 

人才培养:

讲授本科专业课程《天线与电波传播》、《微波与卫星通信》等课程;指导本科生参加大学生创新创业训练计划、互联网+等竞赛。