Name：Ma Wenying

Degrees: Ph.D

Title：Professor

Department：Communication Engineering (Microelectronics)

Research interests：Communication integrated circuits and microelectronic systems, electronic information materials and RF integrated devices.

Research team：Millimeter wave integrated circuit R&D team

E-mail：mwy@cuit.edu.cn

【Biography】

Ma Wenying is a female professor who holds a doctoral degree and a doctoral (post) degree. She is now currently serving as the Secretary of the Party Committee of the School of Communication Engineering (Microelectronics). SHe graduated from the Institute of Optoelectronics Technology of the Chinese Academy of Sciences in 2010 and was a visiting scholar of Columbia University in 2012.

She is a certified expert for National Engineering Education Professional Certification, expert for National Undergraduate Education Teaching Audit evaluation, and one of the most popular teachers at Chengdu University of Information Technology. She has led or participated in more than ten teaching reform projects at the provincial and ministerial levels, and has won multiple teaching achievement awards. In recent years, she is focusing on the construction of undergraduate majors. She has led in completing the certification of engineering education for communication engineering major and Microelectronics both which are the first-class majors in the country.

She has been engaged in research in the fields of microelectronic devices, millimeter wave integrated circuits, and systems for a long time. She is an expert in the think tank of the Sichuan Association for Science and Technology and an expert in the evaluation of military civilian integration projects in Sichuan Province. She has hosted or participated 16 scientific research projects, including 10 projects at or above the provincial and ministerial levels. She has published more than 30 scientific research papers, including 24 first author or corresponding author papers, 13 SCI searches, and 8 EI searches. A total of 16 patents were applied for as the first inventor or participant (guiding students), including 5 invention patents.

【Courses &Teaching】

Undergraduate course：Analog Integrated Circuit Design, Engineering Practice

【Projects】

1. National xxx Special Project，xxx RF Channel Design, under research, PI；

2. National xxx Special Project，xxx Wideband matching theory and overall technology, under research, PI；

3. Research project of the Science and Technology think tank of Sichuan Association for Science and Technology, Research on the development of scientific and technological talents in the field of integrated circuit in Sichuan Province, completed, PI;

4. Sichuan Science and Technology Department Applied Basic Research project, Graphene enhanced high stability and high sensitivity local surface iso-excitation components and their sensing application, completed, PI；

5. Research program of Education Department of Sichuan Province, High stability and high sensitivity local surface plasmon sensor, completed, PI；

6. Postdoctoral Fund, Graphene Enhanced LSPR Nerve gas Sensor in terahertz Band, completed，PI；

7. Horizontal projects, Development of small high-voltage fast dual-channel control power supply, et.al, 5 projects, completed or under research, PI；

8. Young and Middle-aged Academic Leaders Fund of Chengdu University of Information Technology, Construction of Optical Fiber Gas Sensor Technology Research Team, Completed, PI;

9. Innovation Fund of Education Department of Sichuan Province, The Research of THz Sensing Method Based on Periodic Metal Structure", Completed, PI；

10. Science and Technology Innovation Project of Sichuan Province, Development of Miniaturized Fast Multi-channel High Voltage Power Supply Based on FPGA Applied to MEMS Device Driver, completed, PI；

【Publications & Presentations】(First author or communication author only)

1. A terahertz metamaterial analog of electromagnetically induced transparency and its application in loss detection, Proc. SPIE, 2019, 9^th international Symposium on advanced optical manufacturing and testing technologies: Micro-and Nano-Optics, Catenary Optics, and Subwavelength Electromagnetics, 108400R.

2. Surface micromachined MEMS deformable mirror based on hexagonal parallel-plate electrostatic actuator, Journal of Physics: Conf. Series, 2018, 986, 012021. (EI)

3. Research on high Q Value THz EIT metamaterials and sensing characteristics. Photoelectric engineering，2018,45(11)：180298.

4. EIT-like Metamaterials Based on Magnetic Binding Mode Extinction Interference, Journal of Terahertz Science and Electronic Information，2018,16(2)：191-194.

5. Simple biosensing method to detect DMMP based on QCM transducer and acetylcholine esterase sensitive film, Micro&Nano Letters, 2017, 12(2): 113-116.

6. Design and Implementation of QCM Detection System based on SCM, Modern Electronic Technology, 2017,40(16)： 144-147.

7. A Rotation-adjustable Terahertz Metamaterial and its Sensing Properties, Optoelectronic Engineering, 2017,44(4)：453-461.

8. Ring Electrostatic Repelling Rotation Actuator Micro-Electro-Mechanical System Micromirror, High Intensity Laser and Particle Beam, 2016,28(6):064106.

9. One-dimensional integral imaging display with large viewing angle, Optik, 2016, 127, 5219-5220.

10. A Ground Slotted Dual-band Broadband Monopole Antenna, Radio Communication Technology, 2016,43(1)：73-76.

11. Design and Analysis of a New three-frequency antenna, Electronic Components and Materials, 2016,35(9)：53-57.

12. Chloroform-sensing properties of plasmonic nanostructures using poly(methyl methacrylate) transduction layer, Micro&NanoLetters, 2013, 8(2), 111-114.

13. Interpretation of Spectra Responses of Metal Nanoparticles to analyte based on Localized Surface Plasmon Resonance, Journal of Nanoengineering and Nanosystems, 2012, 225(4), 171~175.

14. Spectroscopic Response and Sensitivity of metallic Nanostructures to Refractive Index, Acta Optica Sinica, 2012，32(12)，1228001-1.

15. Ethanol vapor sensing properties of triangular silver nanostructures based on localized surface plasmon resonance, Sensors, 2011, 11, 8643-8653.

16. Effects of receptor thickness on localized surface Plasmon resonance sensing performance, Micro&NanoLetters, 2011, 6(10), 863-866.

17. A numerical investigation of the effect of vertex geometry on localized surface Plasmon resonance of nanostructures, Optics Express, 2010, 18(2): 843-853.

18. Optical properties and sensing performance of Ag/SiO2/Ag triangular nanoprisms, Nanotechnology and Precision Engineering, 2010, 8(3): 240-244.

19. Effect of the Shape of Metal Nanostructures on Their Extinction Properties, Acta Optica Sinica, 2010, 30(9): 2629-2633.

20. A Method for Sensing Ethanol Gas by Triangular Silver Nanorods Array, Acta Photonica Sinica, 2010 , 39(9): 1557-1561.

21. Effects of Vertex Truncation of Polyhedral Nanostructures on Localized Surface Plasmon Resonance, Optics Express, 2009, 17(17), 14967-14976.

22. Design and Analysis of MEMS Two-dimensional Electrostatic Driven Scanning Mirror, Micro/Nano Electronics, 2009,46(5): 296-300.

23. Research and Development of Photonic Radio Frequency Phase Shifter, Semiconductor Technology，2007，32(4):281-284.

1. A Multi-frequency Metamaterial Absorber Based on Inverted π Structure, Utility Model Patent, ZL201920831702.2, Authorized.

2. A terahertz Metamaterial Absorber Based on Earth-Shaped Structure, Utility Model Patent, ZL201920845859.0, Authorized

3. A Method and Device for Adjusting the Focal Length of Microlens Array, Invention Patent, Application No. 201711204830.6, Authorized.

4. A Microchip Cooling Device, Invention Patent, 201721637638.1, Authorized.

5. A Novel Method for the Detection of Organophosphorus based on Local Surface Plasmon Resonance, Invention Patent, 201510100740.7，Authorized.

6. A Focusing Micromirror and a Focusing Fevice, Invention Patent，201610230767.2，Authorized.

7. A Reaction Cell based on Quartz Crystal Microbalance, Utility model patent, ZL 2015 2 0688891.4，Authorized

8. A Detection rod, Utility Model Patent, 2015 2 0860326.1，Authorized

9. A New Microstrip Antenna, utility model patent，ZL 2015 2 0968021.2, Authorized.

10. A Dual-frequency Coplanar Waveguide Monopole Antenna, Utility model Patent, ZL 2016 2 0022203.5, Authorized.

11. A Terahertz Metamaterial Sensor, Utility model Patent, ZL 2018 2 0356929.1, Authorized.

12. A comb capacitance three-week MEMS Acceleration Sensor, Utility Model Patent, CN201721659689.4, Authorized.

13. A Large Mass block comb capacitive three-axis Acceleration sensor, Utility Model Patent, CN207832823U, Authorized

【Awards】

1. In 2021, the first prize of Teaching Achievements in Sichuan Province, Promoting the Construction of First-class Engineering Majors in Western localized Universities in the New Era Through the Integration of Inheritance and Innovation.

2. In 2021, the second prize of Teaching Achievements in Chengdu University of Information Technology，Research on the Cultivation Mode of Non-technical Ability of Electronic Information Major from the Perspective of Political Thinking。

3. In 2017, the Third Prize of Science and Technology Progress of Sichuan Province, Integrated Application of Key Technologies of High-efficiency and Low-noise Audio Power Amplifier.

4. "Most Popular Teacher Award" of Chengdu University of Information Technology in 2016.

5. In 2016, the second prize of Teaching Achievements in Chengdu University of Information Technology, Research and Practice of Innovative Talents Training System for Professional Certification of Complex Engineering Ability。