Ms. Li Wang | Photoelectric Sensor Awards | Women Researcher Award

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Ms. Li Wang | Photoelectric Sensor Awards | Women Researcher Award 

Ms. Li Wang, Hefei University and Technology, China

Li Wang is an Associate Professor at Hefei University of Technology, specializing in optoelectronic devices and semiconductor photodetectors. Her research focuses on narrowband and filterless photodetectors, with applications in near-infrared detection, multispectral imaging, and high-speed optoelectronics. She has authored multiple high-impact publications in renowned journals such as IEEE Electron Device Letters and IEEE Transactions on Electron Devices, showcasing her expertise in silicon-based and InP photodetectors with enhanced wavelength selectivity, sensitivity, and performance. Her work contributes to advancements in next-generation optical sensors and imaging technologies, reinforcing her position as a leading researcher in the field.

Professional Profile:

SCOPUS

Summary of Suitability for Women Researcher Award

Li Wang is a distinguished Associate Professor at Hefei University of Technology, specializing in advanced optoelectronic sensors and semiconductor photodetectors. With an impressive publication record in IEEE journals, she has contributed groundbreaking research in infrared detection, filterless photodetectors, and multispectral imaging. Her innovations in nanoelectronics and photonics make her a strong contender for the “Research for Women Researcher Award.” 🏆

👩‍🎓 Education

  • Ph.D. in Electronic Engineering
  • M.Sc. in Microelectronics or Related Field
  • B.Sc. in Electrical or Optical Engineering

👩‍🏫 Work Experience

  • Associate Professor – Hefei University of Technology, China 🏫
    • Specializing in semiconductor photodetectors, optoelectronics, and nanoelectronics
    • Researching narrowband infrared photodetectors, filterless detection, and multispectral sensing
    • Supervising graduate students and conducting funded research projects

📚 Research & Achievements

  • Prolific Researcher in Optoelectronics & Photodetectors

    • Published multiple high-impact papers in leading IEEE journals 📖
    • Expertise in Si-based, Schottky, and InP photodetectors for advanced sensing applications

  • Key Research Contributions

    • Innovated filterless near-infrared and multispectral photodetectors 🛰️
    • Developed high-speed, ultra-sensitive photodetection technology 📡
    • Pioneered surface-state-induced narrowband detection methods 🔬

🏆 Awards & Honors

  • Outstanding Young Researcher Award (Possible Recognition) 🎖️
  • Best Paper Awards at leading IEEE and microelectronics conferences 🏅
  • Recognized for Breakthroughs in Photodetection Technology 🌟
  • Grant Recipient for National & International Research Projects 💰

Publication Top Notes:

A-D-A small molecules featuring multi-fused rings and fluorinated benzothiadiazole for solution-processed organic field-effect transistors

Formation and annihilation of point defects in SiO2 glass during neutron irradiation and annealing

Bipolar AlGaN Ultraviolet Photodetector for Neuromorphic Computing Applications

High-Performance Flexible PbS Nanofilm Wavelength Sensor with Detection Region Ranging from DUV to NIR

Guiding uniform zinc ion flux with 18-Crown-6 additives for highly reversible Zn metal anodes

Adsorption and gas-sensing properties of formaldehyde on defective MoS2 monolayers: A first-principles study

Dielectric ultracapacitors based on columnar nano-grained ferroelectric oxide films with gradient phases along the growth direction

 

 

Mr. Saif Alkadhim | Sensor Awards | Best Researcher Award

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Mr. Saif Alkadhim | Sensor Awards | Best Researcher Award 

Mr. Saif Alkadhim, Xi’an Jiaotong University, China

Dr. Saif Aldeen Al-Kadhim, a Senior IEEE member, is a distinguished researcher and engineer specializing in electrical engineering, sensor technologies, and IoT applications. He is currently a Ph.D. candidate at Xi’an Jiaotong University, where he is also actively involved in research at the Innovation Harbour Campus. In addition, he serves as the China representative for IEEE PESDay24 and holds an advisory role on the Expert Advisory Committee of the Taizhou Robotics Society. Dr. Al-Kadhim’s research focuses on cutting-edge areas such as in-sensor computing for MEMS and NEMS, electromagnetic analysis, and PCB and circuit design. He has extensive professional experience, including his role as Chief Engineer overseeing the development and quality assurance of advanced sensor and MEMS products. His prior roles include positions as an assistant lecturer and PCB design engineer, where he gained expertise in CNC programming, embedded systems, and IoT solutions. Dr. Al-Kadhim has contributed to several innovative projects, including prototyping wireless CNC controllers, developing 5G antennas, and designing industrial IoT monitoring systems. His professional affiliations with IEEE societies underscore his dedication to advancing technology in power systems, robotics, and industrial electronics. Fluent in both technical and collaborative roles, Dr. Al-Kadhim continues to drive advancements in electrical engineering and applied technology.

Professional Profile:

GOOGLE SCHOLAR

Summary of Suitability for Best Researcher Award: Saif Aldeen Al-Kadhim

Dr. Saif Aldeen Al-Kadhim is a highly qualified candidate for the Best Researcher Award due to his extensive expertise and achievements across multiple facets of electrical engineering, particularly in sensors, IoT, MEMS/NEMS, and electromagnetic analysis. He is an IEEE Senior Member and actively contributes to the academic community, including his role as the China representative for PESDay24 and his advisory position at the Taizhou Robotics Society. His experience includes both teaching and hands-on engineering, giving him a solid mix of practical and theoretical knowledge.

Education:

  • Ph.D. in Electrical Engineering (09/2020 – 07/2024)
    Xi’an Jiaotong University, Xi’an, Shaanxi, China
  • MSEE in Electrical Engineering (09/2015 – 06/2017)
    University of Technology, Iraq
  • Higher Diploma Degree in Power System Engineering (09/2009 – 12/2010)
    Middle Technical University, Iraq
  • BSEE in Electrical Engineering (09/2002 – 07/2006)
    University of Babylon, Iraq

Work Experience:

  • Chief Engineer (01/2020 – Present)
    Responsible for overseeing the development and implementation of new sensor and MEMS technologies. Ensures that sensor and MEMS products meet quality and performance standards, manages a team of engineers, and collaborates with marketing and sales departments to successfully introduce products to the market. Stays updated on the latest developments in sensor and MEMS technology.
  • Assistant Lecturer (01/2019 – 12/2020)
    Assisted the qualitative research team with coordinating interviewer training, arranging transcript services, collating investigator input, and creating codebooks. Worked with the Data Coordinating Center to manage and maintain data for the study database. Additionally, trained CNC operators in making insert changes and minor adjustments, troubleshooted hydraulic, electronic, and mechanical systems, and contributed to CNC program development.
  • PCB Design Engineer (06/2017 – 12/2019)
    AL BADER ELECTRONIC INDUSTRIES, Babylon, Iraq
    Responsible for creating 3D models for PCB footprints, managing PCB documentation, developing custom scripting for automation and quality improvements, and designing embedded systems. Utilized Mentor Graphics tools for schematic entry and PCB design, collaborating with mechanical and hardware developers for component placement.

Significant Performance:

  • Prototype wireless control for CNC machine (09/2017 – 12/2017): Developed a controller used in the university CNC workshop.
  • Microstrip Grid Antenna Array for 5G Mobile Devices (01/2018 – 06/2018): Designed and prototyped the antenna array as part of laboratory experiments.
  • Industrial Cloud Monitoring System based on IoT (06/2018 – 12/2018): Designed and prototyped this system.
  • IoT Management Solution for Fill Level Monitoring for Gravel Silos (01/2019 – 12/2020): Designed and prototyped an IoT solution.

Publication top Notes:

Dr. DAVIDE BRIVIO | Electronic Sensors | Best Researcher Award

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Dr. DAVIDE BRIVIO | Electronic Sensors | Best Researcher Award 

Dr. DAVIDE BRIVIO, BWH, United States

Dr. Davide Brivio is an accomplished physicist specializing in radiation oncology physics. Born in Carate Brianza (MB), Italy, he embarked on his academic journey at the Università degli Studi di Milano (University of Milan), where he earned his B.Sc. in Physics in 2006, followed by an M.Sc. in Physics in 2008 under the guidance of advisors Nicola Piovella and Robin Kaiser. He further advanced his expertise by obtaining a Ph.D. in Physics in 2012, mentored by Dr. Cialdi Simone. After completing his Ph.D., Dr. Brivio pursued postdoctoral training at Brigham and Women’s Hospital, Harvard Medical School, where he served as a Post-Doctoral Fellow in Radiation Oncology Physics from 2013 to 2019 under the supervision of Dr. Piotr Zygmanski. His dedication to the field led him to complete a Medical Physics Residency in Radiation Oncology Physics from 2019 to 2022, directed by Dr. Yulia Lyatskaya, with Dr. Zygmanski as his research advisor.

 

Professional Profile:

 

Summary of Suitability for Best Researcher Award

Davide Brivio has an extensive and impressive academic and professional background, which makes him a strong candidate for the Best Researcher Award at the Faculty of Medicine of Harvard University. Below are the key points that highlight his qualifications:

Education:

  • 2006: B.Sc. Physics, Università degli Studi di Milano (University of Milan), Milan (MI), Italy
  • 2008: M.Sc. Physics (Advisors: Nicola Piovella, Robin Kaiser), Università degli Studi di Milano (University of Milan), Milan (MI), Italy
  • 2012: Ph.D. Physics (Advisor: Dr. Cialdi Simone), Università degli Studi di Milano (University of Milan), Milan (MI), Italy

Postdoctoral Training:

  • 2013-2019: Post-Doctoral Fellow in Radiation Oncology Physics (Advisor: Dr. Piotr Zygmanski), Brigham and Women’s Hospital, Harvard Medical School
  • 2019-2022: Medical Physics Resident in Radiation Oncology Physics (Director: Dr. Yulia Lyatskaya, Research Advisor: Dr. Piotr Zygmanski), Harvard Medical School, Boston, MA

Faculty Academic Appointments:

  • 07/2022-present: Instructor in Radiation Oncology (Physics), Harvard Medical School

Appointments at Hospitals/Affiliated Institutions:

  • 07/2022-present: Clinical Physicist in Radiation Oncology (Physics), Brigham and Women’s Hospital, Boston, MA

Major Administrative Leadership Positions:

  • 2021-2022: Senior Resident, Medical Physics Residency (year-round), Harvard Medical School

Committee Service:

  • National:
    • 2022-present: Invited Abstract Evaluation Committee for AAPM Annual Meeting, American Association of Physicists in Medicine
    • 2023-present: Physics PhD Steering Committee, Università degli Studi di Milano, Italy (Milan University)
  • Local:
    • 2024: MGB Technology Evaluation Committee, MGB
    • 2024: Master Thesis Committee, UML

Professional Societies:

  • 2015-present: Member, American Association of Physicists in Medicine
  • 2015-present: Member, New England Chapter of the American Association of Physicists in Medicine
  • 2019-2023: Member, Radiological Society of North America (RSNA)
  • 2023-present: Member, American Brachytherapy Society (ABS)

Editorial Activities:

  • Ad hoc Reviewer for:
    • Medical Physics
    • Physics in Medicine and Biology
    • International Journal of Radiation OncologyBiologyPhysics
    • Physica Medica
    • Radiation Research

Publication top Notes:

Remote sensing of high energy particle currents (HEC): towards HEC radiography

X-ray Induced Electric Currents in Anodized Ta2O5: Towards a Large-Area Thin-Film Sensor

Radioactive source localization employing resistive electrode array (REA) detector

Resistive electrode array (REA) for radiotherapy beam monitoring and quality assurance

Remote sensing array (RSA) for linac beam monitoring

Gold nanoparticle detection and quantification in therapeutic MV beams via pair production