Mr. Ji Huang | Dosimetric Research | Best Researcher Award

National Institute of Metrology | China

Author Profile

Scopus

🌟 Biography of Huang Ji 🌟

🧪 Full Name:

Huang Ji

🏛️ Designation:

Research Professor

🏢 Institution/Organization:

National Institute of Metrology, China (NIM)

🌐 Academic and Professional Background

Huang Ji is a distinguished researcher in ionizing radiation metrology with a focus on FLASH radiotherapy, small-field dosimetry standards, and metrology systems. He has contributed to the establishment of two national standards and drafted two technical specifications in radiotherapy metrology. Huang serves as the Deputy Secretary-General of the Ionizing Radiation Committee of the China Society for Measurement and is an active member of the Medical Physics Division of the Chinese Nuclear Society.

🔬 Research and Innovations

• 🎯 Completed/Ongoing Research Projects: Led several national-level projects, including the Young Scientists Program of the National Key R&D Program and projects funded by the National Natural Science Foundation of China.
• 📈 Citation Index: H-Index of 11.
• 🔗 Consultancy/Industry Projects: Worked on projects under the National Key R&D Program and National Natural Science Foundation of China.
• 📚 Books Published (ISBN): None.
• 🔒 Patents Published/Under Process: Over 10 invention patents.
• 📝 Journals Published: More than 20 SCI-indexed papers.
• 🖋️ Editorial Appointments: Editorial member of Nuclear Science and Technology.

🤝 Collaborations

Worked with prominent institutions such as:

• Tsinghua University
• Beijing Cancer Hospital
• Peking University
• China Academy of Engineering Physics

🌟 Professional Memberships

• Deputy Secretary-General, Ionizing Radiation Committee, China Society for Measurement
• Member, Medical Physics Division, Chinese Nuclear Society

🔍 Areas of Research

Huang Ji’s research focuses on:

• FLASH radiotherapy
• Small-field dosimetry standards
• Advanced metrology systems

🚀 Key Contributions

Huang Ji developed a comprehensive Monte Carlo model to analyze dosimetry errors and introduced an innovative FFF output correction factor. This breakthrough addresses dosimetry errors across various ionization chambers and electron angle conditions, significantly advancing precision in FFF radiotherapy.

🌟 Impact: His work enhances accuracy in radiotherapy, contributing to improved patient outcomes and advancing metrology science.

• Uniformity Control of Laser-Induced Periodic Surface Structures
  • Authors: Huang, J.; Liu, Y.; Jin, S.; Wang, K.; Qiu, R.
  • Journal: Frontiers in Physics
  • Year: 2022

 

• Single-Pixel-Adjustable Structural Color Fabricated Using a Spatially Modulated Femtosecond Laser
  • Authors: Liu, Y.; Jiang, L.; Li, X.; Ye, Y.; Wang, Z.
  • Journal: ACS Applied Materials and Interfaces
  • Year: 2023

 

• Efficient Fabrication of Infrared Antireflective Microstructures on a Curved Diamond-ZnS Composite Surface by Using Femtosecond Bessel-like Beams
  • Authors: Mengnan, W.U.; Jiang, L.; Taoyong, L.I.; Zhang, X.; Li, X.
  • Journal: Optics Express
  • Year: 2023

 

• Development and Application of Absorbed Dose Primary Standard for 60^{60}60Co and High-Energy Photon Beams Using Water Calorimetry
  • Authors: Wang, Z.; Wang, K.; Jin, S.; Qi, Y.; Zhang, J.
  • Journal: Metrologia
  • Year: 2023

 

• Alternate Morphology Evolution of Bulge Structures on Thin Gold Films Induced by Internal Stress Distribution Adjusted by Femtosecond Laser Double-Pulse
  • Authors: Gao, S.; Li, X.; Lian, Y.; Fu, Z.; Huang, J.
  • Journal: Optics and Laser Technology
  • Year: 2022