Yongqiang Ji | Experimental methods | Best Researcher Award

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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.

👨‍🎓Profile

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📚 Early Academic Pursuits

Ji’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.

🔬 Professional Endeavors

Ji’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.

💡 Contributions and Research Focus

Ji’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.

🌍 Impact and Influence

Ji’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.

📑 Academic Cites

Ji’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.

🛠️ Research Skills

Ji’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.

🏫 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.

🏆 Awards and Honors

Ji’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)

🌟 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. Ji’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

 

Mireia Andonegi | Physical methods | Best Researcher Award

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Dr. Mireia Andonegi | Physical methods | Best Researcher Award

PHD at the University of the Basque Country (UPV/EHU), Spain

Dr. Mireia Andonegui San Martin is a postdoctoral researcher at the University of the Basque Country (UPV/EHU) specializing in waste valorization, biodegradable materials, and biopolymer processing. She received her PhD in Renewable Materials Engineering with Cum Laude and International Mention from UPV/EHU. Her research, which includes developing sustainable collagen-based materials and innovative energy storage solutions, has resulted in 12 high-impact publications and participation in numerous R&D projects. Mireia’s work addresses critical environmental challenges and aims to create sustainable and efficient materials for various industrial applications. Physical methods 

Professional Profiles

Analysis of Mireia Andonegui San Martin for Best Researcher Award

Strengths

Research Contributions:

Focus on Sustainability and Innovation: Mireia’s research on biodegradable materials, waste valorization, and biopolymer processing is highly relevant to current environmental and industrial needs. Her work addresses critical issues related to sustainable development and green technologies.
Publications: Mireia has published 12 articles in Q1 journals, with six in the first decile, indicating high-impact research. Her h-index of 6 demonstrates her work’s influence and recognition in her field.
Projects and Collaborations: Participation in 22 R&D projects funded through competitive calls and 5 R&D contracts with private entities showcases her ability to secure funding and collaborate effectively with industry and academic partners. Physical methods 

Professional Experience:

Diverse Research Roles: Mireia has held multiple research positions, including her current postdoctoral role at the University of the Basque Country. Her experience spans various projects and institutions, demonstrating her adaptability and extensive expertise.
International Experience: Mireia has conducted several international research stays, including work at the University of Minho. This exposure to different research environments has likely enriched her skills and broadened her perspective. Physical methods

Educational Background:

PhD in Renewable Materials Engineering: Achieving a PhD with Cum Laude and International Mention from UPV/EHU underscores her academic excellence and research capabilities.
Comprehensive Education: Her degrees in industrial chemical engineering and renewable materials engineering provide a solid foundation for her multidisciplinary research.

Innovative Research:

Biomedical Applications: Development of collagen-based materials for biomedical applications highlights the innovative and practical aspects of her research.
Energy Storage Solutions: Current work on separators and solid electrolytes for lithium-ion batteries addresses the critical need for efficient and sustainable energy storage, aligning with global priorities in energy sustainability. Physical methods

Areas for Improvement

Broaden Research Scope:

Expanding her research to include more interdisciplinary collaborations and exploring emerging areas within her field could further enhance her impact and innovation.

Increase Publication Diversity:

While her publication record is strong, publishing in a wider variety of journals and including more international co-authors could improve visibility and reach.

Engage with the Academic Community:

Increasing involvement in academic conferences, workshops, and professional societies would help to further establish her as a leader in her field and expand her professional network.

Seek Additional Funding:

Securing more grants and funding opportunities, especially from international sources, could provide additional resources for her research and further demonstrate her ability to attract funding. Physical methods

Publications

Conclusion

Mireia Andonegui San Martin is a compelling candidate for the Best Researcher Award due to her significant contributions to the fields of biodegradable materials, waste valorization, and biopolymer processing. Her high-impact publications, extensive project involvement, and innovative research focus demonstrate her expertise and dedication to addressing critical environmental and industrial challenges. Physical methods

By broadening her research scope, increasing publication diversity, engaging more with the academic community, and seeking additional funding, Mireia can further enhance her research impact and establish herself as a leading researcher in her field. Her profile is highly suitable for consideration for the Best Researcher Award, reflecting her potential for future contributions to sustainable and innovative technologies.

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