Yongqiang Ji | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Assoc. Prof. Dr. Yongqiang Ji | Experimental methods | Best Researcher Award

Henan Academy of Sciences | China

Ji Yongqiang is a highly accomplished researcher specializing in nanomaterials, particularly quantum dots and optical devices like QLEDs and solar cells. He is currently serving as an Associate Researcher at the Henan Academy of Sciences and has previously held positions as an Assistant Researcher at Peking University and a PhD student at Xi’an Jiaotong University. His research has earned him recognition for his work in luminescent nanocrystals and perovskite quantum dots, driving innovations in solar cell technology and light-emitting devices.

๐Ÿ‘จโ€๐ŸŽ“Profile

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๐Ÿ“š Early Academic Pursuits

Jiโ€™s academic journey began at Xi’an University of Technology, where he earned his Bachelor’s in Applied Physics. Under the guidance of Associate Professor Men Shouqiang, he laid a strong foundation in solid-state physics, digital circuits, and quantum mechanics. His interest in material science and semiconductor physics grew during his master’s at Henan University, where he worked with Professor Qian Lei and contributed significantly to condensed matter physics. His doctoral studies at Xi’an Jiaotong University under Professor Wang Minqiang focused on electronic ceramics and device technologies, marking the start of his journey into nanomaterials and optoelectronics.

๐Ÿ”ฌ Professional Endeavors

Jiโ€™s career has been characterized by exceptional research leadership and contributions to luminescent nanocrystals, quantum dot solar cells, and QLEDs. At Peking University, under Professor Gong Qihuang, he developed cutting-edge devices and optimized fabrication platforms for quantum dots, which enhanced device efficiency and stability. His hands-on expertise spans from magnetron sputtering to transmission electron microscopy (TEM), showcasing his proficiency in advanced research instruments.

๐Ÿ’ก Contributions and Research Focus

Jiโ€™s research is driven by the fabrication and spectral tuning of luminescent nanocrystals, particularly quantum dots and perovskite quantum dots. Key contributions include:

  • Quantum Dot Solar Cells: He developed a precise fabrication platform for AgBiS2 quantum dots, optimizing light absorption and solar cell efficiency.
  • QLED Device Optimization: By improving spin-coating speeds and nanocrystal concentrations, Ji achieved high-brightness QLEDs, pushing the boundaries of light-emitting devices.
  • Perovskite Nanostructures: He pioneered research into 1D nanostructures and core-shell structures, improving optical properties and stability for applications in optical communication and energy harvesting.

๐ŸŒ Impact and Influence

Jiโ€™s work has left a lasting impact in the fields of nanotechnology, optical devices, and energy solutions. His research on quantum dot solar cells and QLEDs is essential for the advancement of renewable energy technologies and next-generation display systems. Through his collaborations with leading institutions like Peking University and Henan Academy of Sciences, Ji has not only advanced scientific understanding but also contributed to the commercialization of advanced technologies.

๐Ÿ“‘ Academic Cites

Jiโ€™s research is widely cited in high-impact journals such as Nanotechnology, Micromachines, Materials, and Nano-Structures & Nano-Objects. His work on perovskite quantum dots and quantum dot solar cells has been instrumental in shaping contemporary research in renewable energy and optoelectronics. His publications have earned recognition for their novelty, technical depth, and practical applications.

๐Ÿ› ๏ธ Research Skills

Jiโ€™s technical expertise is multifaceted, and his key research skills include:

  • Synthesis Methods: Mastery in hot injection, solvothermal, and ball-milling techniques to prepare quantum dots.
  • Device Fabrication: Expertise in QLED and solar cell fabrication, optimizing processes like spin coating and annealing to enhance device performance.
  • Material Characterization: Proficient in TEM, PR745 LED testing systems, and vacuum coating for material analysis and device testing.

๐Ÿซ Teaching Experience

Ji has shared his knowledge as a mentor to graduate students at Henan University and Xi’an Jiaotong University, guiding them through complex topics in semiconductor physics and material science. His role as a reviewer for various scientific journals demonstrates his commitment to fostering academic growth and providing critical feedback to emerging researchers in the field.

๐Ÿ† Awards and Honors

Jiโ€™s academic excellence is reflected in numerous awards and scholarships, including:

  • Third-Class Scholarship at Xi’an University of Technology (2012)
  • First-Class Academic Scholarship at Henan University (2014)
  • Yao Xi Ferroeletric Scholarship at Xi’an Jiaotong University (2020)
  • Boya Postdoctoral Program at Peking University (2021)
  • Outstanding Graduate of Shaanxi Province (2022)

๐ŸŒŸ Legacy and Future Contributions

Looking ahead, Ji is well-positioned to continue making groundbreaking contributions to the fields of nanotechnology and energy solutions. His ongoing projects in perovskite QLEDs and quantum dot solar cells are poised to lead to more efficient, durable, and cost-effective devices. His expertise in quantum materials will likely play a crucial role in the future development of sustainable energy technologies and advanced optoelectronic systems. Jiโ€™s commitment to interdisciplinary research and mentorship ensures a bright future for both his career and the next generation of researchers.

Publications Top Notes

Group-VA Doped ZnO Injection Layer for Bright and Efficient Perovskite Light-Emitting Diodes

  • Authors: X. Yang, Y. Ji, Q. Li, C. Lu, R. Zhu
    Journal: Advanced Functional Materials
    Year: 2025

Surface-enhanced Raman scattering of R6G dimerization during self-healing of gel

  • Authors: Y. Zhou, M. Wang, J. Wang, N.V. Gaponenko, A.S. Bhatti
    Journal: Mikrochimica Acta
    Year: 2025

Solvent-Engineering-Assisted Ligand Exchange Strategy for High-Efficiency AgBiS2 Quantum Dot Solar Cells

  • Authors: Q. Zhong, B. Zhao, Y. Ji, R. Zhu, L. Zhao
    Journal: Angewandte Chemie – International Edition
    Year: 2024

Lateral Phase Heterojunction for Perovskite Microoptoelectronics

  • Authors: L. Li, H. Yan, S. Li, X. Wang, R. Zhu
    Journal: Advanced Materials
    Year: 2024

Ligand-Tuned AgBiS2 Planar Heterojunctions Enable Efficient Ultrathin Solar Cells

  • Authors: J. Chen, Q. Zhong, E. Sirotti, R. Zhu, I.D. Sharp
    Journal: ACS Nano
    Year: 2024

 

Huanqin Wang | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Prof. Huanqin Wang | Experimental methods | Best Researcher Award

Hefei Institutes of Physical Science, Chinese Academy of Sciences | China

Professor Huanqin Wang is a distinguished researcher and educator currently serving as a professor at the Hefei Institutes of Physical Science, Chinese Academy of Sciences. He specializes in ultrafine particle sensing and environmental detection technologies. With a strong academic background, including a Ph.D. in microelectronics and solid-state electronics from the University of Science and Technology of China, he has made substantial contributions to improving environmental quality and addressing pollution through innovative technological solutions.

๐Ÿ‘จโ€๐ŸŽ“ Profile

Scopus

Early Academic Pursuits ๐ŸŽ“

Professor Wang earned his B.S. degree in applied physics in 2004, followed by a Ph.D. in microelectronics and solid-state electronics in 2009 from the University of Science and Technology of China. His academic journey laid the foundation for his future research and expertise in environmental sensing technologies, leading to his role as a professor at the State Key Laboratory of Transducer Technology, part of the Institute of Intelligent Machine.

Professional Endeavors ๐Ÿ’ผ

Currently, Wang is a professor at the Chinese Academy of Sciences, where he also manages research projects funded by prestigious national programs such as the National Key Research and Development Program of China and the National Natural Science Fund of China. Over his career, he has been instrumental in driving several projects aimed at pollution control and sensing technologies that address real-world environmental issues.

Contributions and Research Focus ๐ŸŒฑ

Professor Wangโ€™s primary research interest lies in the development of new technologies for mobile pollution source emission detection, with a particular focus on ultrafine particle sensing. He has developed key equipment such as the miniature atmospheric ultrafine particle size spectrometer and an on-board particulate matter emission testing system, which have been mass-produced and successfully applied in urban air quality evaluations and vehicle emission retrofits.

Impact and Influence ๐ŸŒ

Wang’s work has made significant impacts on pollution control efforts, especially in the areas of diesel vehicle emissions and urban particulate monitoring. His devices are now used to assess the effectiveness of diesel vehicle particulate filter retrofits and are deployed in cities such as Tianjin and Tangshan. With over 70 published articles and 60 patents, Wangโ€™s research has shaped how we understand and address air quality and emissions in modern cities.

Academic Cites ๐Ÿ“š

Professor Wangโ€™s publications have been widely recognized, with a citation index of 828. His peer-reviewed articles in SCI, Scopus, and other respected journals have become critical resources for the scientific community, showcasing the high relevance and impact of his research on environmental science and technology.

Research Skills ๐Ÿ› ๏ธ

Professor Wang excels in various research methodologies, particularly in sensor technology and environmental detection systems. His expertise spans from conceptualization and design to the implementation of cutting-edge sensing devices. Additionally, his experience in consultancy and industry projects further demonstrates his ability to translate academic research into practical, real-world solutions.

Teaching Experience ๐Ÿ‘จโ€๐Ÿซ

As a professor with the Institute of Intelligent Machine, Professor Wang has also contributed to graduate-level education in the fields of microelectronics, sensor technology, and environmental science. His teaching influences future generations of researchers and engineers who will continue to address global environmental challenges.

Legacy and Future Contributions ๐Ÿ”ฎ

Looking forward, Professor Wangโ€™s continued research promises to push the boundaries of environmental monitoring technologies. His development of more advanced sensing devices will play a pivotal role in addressing global pollution and contributing to sustainable urban development. His legacy will undoubtedly influence both the scientific community and policy makers in the fight against environmental degradation and climate change.

ย  Publications Top Notes

Electrostatic vehicle exhaust particle sensor for the evaluation of the diesel particulate filter (DPF)

  • Authors: Sun, Q., Wang, H., Liu, J., Yu, F., Gui, H.
    Journal: Instrumentation Science and Technology
    Year: 2025

Simulation of electrostatic particulate matter sensor regeneration based on the particulate deposition patterns

  • Authors: Liu, J., Wang, H., Sun, Q., Yu, F., Feng, B.
    Journal: Sensor Review
    Year: 2024

Analysis of excessive NOx emission from tampered heavy-duty vehicles based on real-time data and its impact on air pollution

  • Authors: Li, Y., Wang, H., Fu, M., Yang, Y., Gui, H.
    Journal: Atmospheric Pollution Research
    Year: 2024

Structural simulation and performance evaluation of self-priming electrostatic diesel vehicle emission particle sensor

  • Authors: Sun, Q., Wang, H., Huang, G., Gui, H., Chen, D.-R.
    Journal: Instrumentation Science and Technology
    Year: 2024

Beijing Heavy-Duty Diesel Vehicle Battery Capacity Conversion and Emission Estimation in 2022

  • Authors: Fu, M., Yang, Y., Li, Y., Yu, F., Liu, J.
    Journal: Sustainability (Switzerland)
    Year: 2023