Assoc. Prof. Dr. Shunli Ma | Electromagnetic | Best Researcher Award

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Assoc. Prof. Dr. Shunli Ma | Electromagnetic | Best Researcher Award 

Assoc. Prof. Dr. Shunli Ma, Fudan University, China

Shunli Ma is an Associate Professor at Fudan University, specializing in analog sensor circuit design, automotive millimeter-wave radar systems, and millimeter-wave imaging technology. Since joining Fudan University in 2017, he has held various roles including postdoctoral fellow, young associate researcher, and currently serves as an Associate Professor since 2022. Dr. Ma’s career spans both academia and industry, including his pivotal work at VIRTUS Lab, Nanyang Technological University (Singapore) from 2012 to 2014, where he contributed to the design of 60GHz communication chips that have since reached mass production. From 2016 to 2017, he was a founding engineer at Gatland Microelectronics Technology (Shanghai) Co., Ltd., where he led the development of 77GHz FMCW phase-locked loops and high-performance amplifiers, integral to China’s first mass-produced 77GHz CMOS automotive millimeter-wave radar chips. Dr. Ma has published over 50 high-impact papers, including 27 in prestigious journals such as IEEE TCAS-I/II and TMTT, and holds 13 invention patents. He has led and participated in numerous national and provincial research projects, and actively collaborates with academic institutions and industry partners to advance radar and semiconductor technologies.

Professional Profile:

SCOPUS

🏆 Summary of Suitability for Best Researcher Award: Shunli Ma

Shunli Ma, currently an Associate Professor at Fudan University, stands out as a highly accomplished and impactful researcher in the fields of analog sensor circuits, millimeter wave radar technology, and millimeter wave imaging. With over a decade of academic, industrial, and research experience—including key contributions to commercialized technologies—Dr. Ma is an outstanding candidate for the Best Researcher Award.

🎓 Education & Research Training

  • 📍 Postdoctoral Fellow, Fudan University (2017–2018)

  • 🎓 Research Fellow, VIRTUS Lab, Nanyang Technological University, Singapore (2012–2014)

    • Focus: 60GHz communication chip design

💼 Work Experience

  • 👨‍🏫 Associate Professor, Fudan University (2022–Present)

    • Research Areas: Analog sensor circuit design, automotive millimeter-wave radar, and millimeter-wave imaging technology

  • 👨‍🔬 Young Associate Researcher, Fudan University (2018–2022)

  • 🧪 Postdoctoral Fellow, Fudan University (2017–2018)

  • 🛠️ Founding Engineer, Gatland Microelectronics, Shanghai (2016–2017)

    • Led design of 77GHz FMCW phase-locked loops and high-performance amplifiers

    • Key contributor to the first domestic mass-produced 77GHz CMOS car-mounted millimeter-wave radar

  • 🌐 Researcher, VIRTUS Lab, Nanyang Technological University, Singapore (2012–2014)

    • Worked on mass-producible 60GHz communication chips

🏆 Achievements

  • 📄 Published over 50 papers in top-tier journals (e.g., TCAS-I/II, TMTT)

  • 📘 Total of 27 high-level academic publications

  • 🔬 Granted 13 national invention patents

  • 📊 Involved in multiple national, provincial, and ministerial-level research projects

  • 🤝 Collaborates with various research institutions and industry partners

🏅 Awards & Honors

  • 🧠 Recognized as a leading expert in millimeter-wave circuit design

  • 🥇 Contributions led to mass production of China’s first 77GHz CMOS automotive radar module

  • 🛡️ Key innovator in high-performance analog and RF IC design

Publication Top Notes:

A Harmonic-Suppressed GaN Power Amplifier Using Artificial Coupled Resonator

High drain field impact ionization transistors as ideal switches

Long-Range Epitaxial MOF Electronics for Continuous Monitoring of Human Breath Ammonia

Multi-Sampling Mode CDAC Design for a 12-Bit 200MS/s Pipelined-SAR ADC

A 3-to-78-GHz Distributed Low-Noise Amplifier Incorporating High-Gain Differential gm Cells and Balanced Active Balun in a 65-nm CMOS

A 140- and 220-GHz Dual-Band Amplifier in 130-nm SiGe BiCMOS Process

A millimeter-wave broadband power amplifier with a tree-like transistor structure using 0.15-μm GaAs technology

Hybrid neuromorphic hardware with sparing 2D synapse and CMOS neuron for character recognition

A 40nm 2TOPS/W Depth-Completion Neural Network Accelerator SoC With Efficient Depth Engine for Realtime LiDAR Systems

A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS

 

 

Mr. Jindong Zhang | Radio Frequency | Best Researcher Award

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Mr. Jindong Zhang | Radio Frequency | Best Researcher Award 

Mr. Jindong Zhang, Beijing University of Posts and Telecommunications, China

Zhang Jindong is a master’s candidate at Beijing University of Posts and Telecommunications, specializing in radio frequency power amplifiers. His research focuses on developing innovative designs for dual-band power amplifiers with enhanced efficiency and bandwidth for mobile communications. He has published an SCI-indexed journal paper in Microelectronics Journal and contributed to a project funded by the National Natural Science Foundation of China. Zhang has also filed a patent on an advanced output matching network for dual-band power amplifiers. His work has demonstrated significant improvements in drain efficiency and linearity, making valuable contributions to the field of RF circuit design for 5G applications.

Professional Profile:

ORCID

Suitability Summary for Best Researcher Award – Zhang Jindong

Zhang Jindong is an emerging researcher in radio frequency power amplifiers, currently pursuing his master’s degree at Beijing University of Posts and Telecommunications. His contributions to dual-band power amplifier design, participation in a National Natural Science Foundation of China (NSFC) project, and SCI journal publication highlight his research potential.

🎓 Education:

  • Master’s Candidate in Electrical Engineering (Specialization in Radio Frequency Power Amplifiers)
    Beijing University of Posts and Telecommunications (BUPT), China

💼 Work & Research Experience:

  • Postgraduate Researcher at BUPT, focusing on power radio frequency amplifiers

  • Contributed to National Natural Science Foundation of China (NSFC) projects

  • Publication 📄: SCI-indexed paper in Microelectronics Journal

  • Patent Pending 🔬: “An Output Matching Network for Dual-Band Power Amplifiers” (Application No.: 202411228542.4)

🏆 Achievements & Recognitions:

  • Developed a novel dual-band matching network integrating harmonic control

  • Designed a high-efficiency power amplifier achieving 60.1%–71.8% drain efficiency and 41.5/41.4 dBm output power

  • Demonstrated exceptional bandwidth, linearity, and efficiency with 5G NR signals

  • SCI Journal Publication 📖: Microelectronics Journal (2025, Vol. 156, Article 106552)

🎖 Awards & Honors:

  • Contributor to NSFC-funded research projects 🏅

  • Recognized for innovations in radio frequency circuit design 🔧

  • Patent Filing for advancements in dual-band power amplifier technology 📜

Publication Top Notes:

A novel dual-band power amplifier with integrated harmonic control based on dual transmission lines

Mrs. Matilde Anaya Villalpanda | Electromagnetic Field | Best Researcher Award

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Mrs. Matilde Anaya Villalpanda | Electromagnetic Field | Best Researcher Award 

Mrs. Matilde Anaya Villalpanda, Centro de Gestión y Desarrollo de la Calidad, Cuba 

Matilde Anaya Villalpanda is a distinguished Cuban researcher and academic with extensive expertise in food engineering, microbiology, and environmental sciences. She holds degrees in Food Technology (1998) and Chemical Engineering (2007), a Master’s in Food Engineering (2012), and a Ph.D. in Technical Sciences in Environment (2018). With over 26 years of experience, she has served as an Assistant Professor (2015) and a Principal Researcher (2023), teaching at the Institute of Pharmacy and Food at the University of Havana (IFAL-UH) and the Faculty of Chemistry at CUJAE. She has held leadership roles, including Head of the Microbiology Department and Biosecurity Officer at the Institute of Food Industry Research (IIIA) and Head of the Food Safety Coordination Department at the National Standardization Office (ONN). Her doctoral research focused on indoor air microbiological quality, pioneering the use of magnetic fields for aerobiological monitoring, leading to the establishment of Cuban standard NC 1404:2022. Her work spans microbial conservation, probiotic yeast evaluation, fungal enzyme extraction, and the application of circular economy principles in agro-food value chains. She has led or contributed to 17 research projects under Cuba’s Ministry of Science, Technology, and Environment and Higher Education, earning municipal, provincial, and national recognition. An accomplished scholar, she has presented 75 papers at national and international conferences and published 50 indexed journal articles. Her contributions extend to mentoring undergraduate and graduate theses, advancing microbiology, food safety, and biotechnology in Cuba.

Professional Profile:

ORCID

SCOPUS

Summary of Suitability for Best Researcher Award 

Matilde Anaya Villalpanda is a highly distinguished researcher in Food Technology, Chemical Engineering, and Environmental Sciences, making her a strong candidate for the Best Researcher Award. Her 26 years of experience, extensive research contributions, leadership in food safety and microbiology, and significant impact on industrial processes and regulations highlight her excellence in scientific research.

🎓 Education:

  • 1998: Graduated in Food Technology

  • 2007: Degree in Chemical Engineering

  • 2012: Master’s in Food Engineering

  • 2018: Ph.D. in Technical Sciences (Environment)

👩‍🏫 Work Experience:

  • Professor & Researcher:

    • Assistant Professor (2015)

    • Senior Researcher (2023)

  • Teaching Positions:

    • Adjunct Professor at the Institute of Pharmacy and Food, University of Havana (IFAL-UH)

    • Lecturer at CUJAE’s Faculty of Chemistry, teaching:

      • “Principles of Food Engineering” (4th year)

      • “Process Engineering I & II” (4th & 5th year)

  • Industry & Research Leadership:

    • Head of Microbiology Department (2014) – Institute of Food Industry Research (IIIA)

    • Head of Food Safety Coordination Department – National Standardization Office (ONN)

    • Biosecurity Manager (2014) – IIIA

🏆 Achievements & Research Contributions:

  • Doctoral Research: Developed a methodology for indoor air microbiological quality monitoring using magnetic fields, leading to the approval of Cuban standard NC 1404:2022.

  • Innovative Research Areas:

    • Studied magnetic fields’ effects on human health & microorganisms in food preservation and fermentation.

    • Worked on conservation of fungal, yeast, and lactic acid bacteria strains for food applications.

  • Project Leadership:

    • Directed a research project at IIIA on new microbiological analysis methods for the food industry.

    • Led studies on probiotic properties of brewer’s yeast, β-1,3-glucan production in S. cerevisiae, fungal biodeterioration of food packaging, and antifungal activity of Cuban natural products.

    • Participated in Codex Alimentarius management strengthening in Cuba and circular economy projects in agri-food value chains.

  • Industrial Experience:

    • Supervised meat product processing at IIIA.

    • Managed bakery, confectionery, fruit & vegetable processing at MINAG.

    • Directed distillation and aged rum production (Havana Club, Santa Cruz Rum Distillery).

🎖 Awards & Honors:

  • Research Excellence: Participated in 17 research projects across multiple institutions (IIIA, CITMA, MES).

  • Academic Contributions:

    • 75 research presentations in national & international conferences.

    • 50 scientific articles published in indexed journals and Web of Science.

  • Mentorship & Education: Supervised 16 undergraduate theses and 2 master’s theses across engineering, food sciences, and microbiology.

  • Recognized Research Results: Awarded at municipal, provincial, and national levels for scientific contributions.

Publication Top Notes:

Magnetotropism: a tropic response of Candida guillemondii by the effect of the oscillating magnetic field of extremely low frequency

Validación de un Cuestionario Sobre Circularidad En El Sector Agroindustrial Alimentario

LA ECONOMÍA CIRCULAR PARA LA SEGURIDAD ALIMENTARIA Y EL PROCESAMIENTO AGROINDUSTRIAL DE ALIMENTOS

Quantification of superficial growth and the pigmentation of filamentous fungi by effect of oscillating magnetic field

Antifungal effects of Curcuma longa L. essential oil against pathogenic strains isolated from indoor air

Consideraciones sobre la influencia del campo magnético oscilante de frecuencia extremadamente baja en la aeromicrobiota de ambientes interiores

Effect of the oscillating magnetic field on airborne fungal