Ping Chen | Chemistry | Best Researcher Award

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Dr. Ping Chen | Chemistry | Best Researcher Award

China Institute of Atomic Energy | China

Dr. Ping Chen is an accomplished assistant researcher at the China Institute of Atomic Energy, specializing in nuclear chemistry and geochemistry. Her work focuses on the synthesis and analysis of high-purity uranium oxides, redox behavior of uranium on Beishan granite, and the migration and diffusion of technetium-99 in clay. With extensive experience in handling unsealed radioactive sources and advanced analytical techniques, she has contributed significantly to understanding radionuclide behavior in geological environments.

Professional profile👤

ORCID

Strengths for the Awards✨

  • Outstanding Academic Background: Ping Chen’s education spans top institutions, from East China University of Technology to the University of Bern, covering radiation protection, nuclear chemistry, and earth chemistry.
  • Diverse Research Experience: Extensive research in nuclear chemistry and geochemistry, with a focus on uranium oxides, redox behavior, adsorption processes, and radionuclide migration, demonstrates a deep understanding of critical topics in environmental safety and nuclear waste management.
  • Impressive Publication Record: With six publications in high-impact journals such as Applied Geochemistry and Journal of Radioanalytical and Nuclear Chemistry, Ping Chen has made significant contributions to understanding nuclear material behavior.
  • International Collaboration: Research conducted with global institutions, including collaborations with PSI (Paul Scherrer Institute), shows the ability to work across borders, enriching scientific perspectives.
  • Technical Proficiency: Mastery of techniques like SEM, XPS, XAS, ICP-OES, and PHREEQC modeling reflects a robust skillset for cutting-edge research.
  • Recognized Excellence: Multiple scholarships, including from the Chinese Scholarship Council, highlight consistent academic excellence.
  • Practical Experience: Hands-on experience with unsealed radioactive sources and work in controlled environments ensures practical expertise in handling sensitive materials.

🎓 Education

  • Bachelor’s Degree in Radiation Protection and Environmental Engineering, East China University of Technology (2010.09-2014.06)
  • Master’s Degree in Nuclear Science and Technology/Nuclear Chemistry, Sun-Yat University (2014.09-2017.06)
  • PhD in Earth Chemistry, University of Bern (2018.08-Present)

💼 Experience

  • Internship: Institute of Radiation Protection, China (2013.05-2013.06)
  • Lecturer: East China University of Technology (2023.12-2024.04)
  • Assistant Researcher: China Institute of Atomic Energy (2024.05-Present)

🔬 Research Interests On Chemistry

  • Synthesis and analysis of high-purity uranium oxides
  • Redox behavior of uranium on Beishan granite
  • Adsorption of divalent iron on illite
  • Migration and diffusion of technetium-99 in clay

🏆 Awards

  • Scholarship awarded by the Chinese Scholarship Council (2018-2021)
  • First Prize Scholarship (2015, 2016, 2017)
  • National Encouragement Scholarship (2011)

🔖 Publications

  • Chen, P., Van Loon, L.R., Koch, S., Alt-Epping, P., Reich, T., & Churakov, S.V. (2024). “Reactive transport modeling of diffusive mobility and retention of TcO₄⁻ in Opalinus clay.” Applied Clay Science, 251, 107327.

    • Authors: Ping Chen, Luc R. Van Loon, Steffen Koch, Peter Alt-Epping, Tobias Reich, Sergey V. Churakov.
    • Publication Year: 2024

  • Shengchao Li, Duo Zhou, Mingfang Zhou, Hongyun Liu, & Ping Chen. (2025). “Research on electromigration of Sr²⁺ in mudstone: diffusion and modelling.” Journal of Radioanalytical and Nuclear Chemistry.

    • Authors: Shengchao Li, Duo Zhou, Mingfang Zhou, Hongyun Liu, Ping Chen.
    • Publication Year: 2025

  • Chen, P., Churakov, S.V., Glaus, M., & Van Loon, L.R. (2023). “Impact of Fe(II) on ⁹⁹Tc diffusion behavior in illite.” Applied Geochemistry, 56, 105759.

    • Authors: Ping Chen, Sergey V. Churakov, Martin Glaus, Luc R. Van Loon.
    • Publication Year: 2023

  • Chen, P., Van Loon, L.R., Marques Fernandes, M., & Churakov, S.V. (2022). “Sorption mechanism of Fe(II) on illite: Sorption and modelling.” Applied Geochemistry, 143, 105389.

    • Authors: Ping Chen, Luc R. Van Loon, Maria Marques Fernandes, Sergey V. Churakov.
    • Publication Year: 2022

  • Chen, P., Ma, Y., Kang, M., Shang, C., Song, Y., Xu, F., Wang, J., Song, G., & Yang, Y. (2020). “The redox behavior of uranium on Beishan granite: Effect of Fe²⁺ and Fe³⁺ content.” Journal of Environmental Radioactivity, 217, 106208.

    • Authors: Ping Chen, Yue Ma, Mingliang Kang, Chengming Shang, Yang Song, Fengqi Xu, Ju Wang, Gang Song, Yongqiang Yang.
    • Publication Year: 2020

  • Chen, P., Huang, D., Chen, C., Suzuki-Muresan, T., Kang, M., Wang, J., Song, G., & Wang, B. (2017). “Investigation of reaction conditions on synthesis of UO₂.₃₄ and UO₂ via hydrothermal route.” Journal of Radioanalytical and Nuclear Chemistry, 313(1), 229-237.

    • Authors: Ping Chen, Dongyu Huang, Chenchen Chen, Tomo Suzuki-Muresan, Mingliang Kang, Jin Wang, Gang Song, Biao Wang.
    • Publication Year: 2017

Conclusion

Ping Chen’s dedication to nuclear chemistry and geochemistry has led to remarkable insights into radionuclide behavior in geological environments. Her research has contributed significantly to the understanding of uranium oxidation states, iron adsorption, and technetium-99 diffusion, paving the way for advancements in radioactive waste management and environmental safety.

Honggang Fu | Chemistry | Best Researcher Award

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Prof. Honggang Fu | Chemistry | Best Researcher Award

Heilongjiang University | China

Professor Fu Honggang is a distinguished national-level talent and a doctoral advisor at Heilongjiang University. His research expertise lies in materials design, synthesis, structural regulation, and mechanism studies within photocatalysis and electrocatalysis. With an extensive publication record, he has made significant contributions to advancing sustainable energy solutions.

Profile👤

Google Scholar

Strengths for the Awards✨

Outstanding Research Output: With over 440 published research papers and more than 36,000 citations, Professor Fu Honggang has made significant contributions to materials science, particularly in photocatalysis and electrocatalysis. His H-index of 97 demonstrates his work’s high impact.

Exceptional Recognition: More than 60 papers in the ESI Top 1% highly cited category and 8 papers in the ESI Top 0.1% hot papers list highlight his groundbreaking research and influence in the scientific community.

Innovative Contributions: Holding 50+ authorized invention patents, including patents granted in the United States, Japan, and South Korea, he has demonstrated a strong ability to translate research into practical applications.

Prestigious Awards & Honors: His two first-class provincial science and technology awards further validate his exceptional contributions to the field.

National-Level Talent & Mentorship: As a doctoral advisor and a national-level talent at Heilongjiang University, he is actively shaping the next generation of researchers.

🎓 Education

Professor Fu Honggang obtained his academic degrees in materials science and chemistry from prestigious institutions. His rigorous training in these disciplines laid a strong foundation for his cutting-edge research in catalysis.

👨‍🏫 Experience

As a faculty member at Heilongjiang University, Professor Fu has led numerous research projects and supervised doctoral students. His expertise has been sought after in national and international collaborations, solidifying his reputation as a leading scientist in catalytic materials.

🔬 Research Interests On Chemistry

His primary research areas include:

  • Photocatalysis 🌞: Developing efficient photocatalysts for environmental and energy applications.
  • Electrocatalysis ⚡: Exploring innovative materials for advanced energy conversion processes.
  • Structural Regulation 🏗️: Investigating how material properties influence catalytic performance.
  • Mechanistic Studies 🧬: Understanding fundamental reaction pathways to enhance catalyst design.

🏆 Awards

  • Two First-Class Provincial Science and Technology Awards 🏅
  • Over 50 Authorized Invention Patents 🔬 (including patents granted in the United States, Japan, and South Korea)

📚 Publications

Professor Fu Honggang has authored over 440 research papers, accumulating more than 36,000 citations. His influential works include:

  1. “Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity”
    • Solar Energy Materials and Solar Cells, 2006 (Link)
    • Citations: 2046
  2. “Phosphorus‐doped carbon nitride tubes with a layered micro‐nanostructure for enhanced visible‐light photocatalytic hydrogen evolution”
    • Angewandte Chemie International Edition, 2016 (Link)
    • Citations: 1111
  3. “Ordered Mesoporous Black TiO2 as Highly Efficient Hydrogen Evolution Photocatalyst”
    • Journal of the American Chemical Society, 2014 (Link)
    • Citations: 996
  4. “From coconut shell to porous graphene-like nanosheets for high-power supercapacitors”
    • Journal of Materials Chemistry A, 2013
    • Citations: 941
  5. “Nitrogen-doped graphene with high nitrogen level via a one-step hydrothermal reaction of graphene oxide with urea for superior capacitive energy storage”
    • RSC Advances, 2012
    • Citations: 852
  6. “Molecule self-assembly synthesis of porous few-layer carbon nitride for highly efficient photoredox catalysis”
    • Journal of the American Chemical Society, 2019
    • Citations: 816
  7. “The preparation and characterization of La doped TiO2 nanoparticles and their photocatalytic activity”
    • Journal of Solid State Chemistry, 2004 (Link)
    • Citations: 755
  8. “Effects of Simultaneously Doped and Deposited Ag on the Photocatalytic Activity and Surface States of TiO2”
    • The Journal of Physical Chemistry B, 2005 (Link)
    • Citations: 687
  9. “Surface tuning for oxide-based nanomaterials as efficient photocatalysts”
    • Chemical Society Reviews, 2013 (Link)
    • Citations: 677
  10. “Cost-effective large-scale synthesis of ZnO photocatalyst with excellent performance for dye photodegradation”
    • Chemical Communications, 2012 (Link)
    • Citations: 650

🏁 Conclusion

Professor Fu Honggang’s remarkable contributions to materials science and catalysis have positioned him as a leading expert in his field. His extensive research, prestigious awards, and high-impact publications continue to drive innovations in sustainable energy and environmental applications.

Rui Chen | Chemistry | Excellence in Research

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Dr. Rui Chen | Chemistry | Excellence in Research

Professor | Yunnan Normal University | China

Chen Rui is a distinguished researcher in biological mass spectrometry, contributing extensively to the field through her studies on the chemical and biological properties of natural compounds. Currently affiliated with Yunnan Normal University, her expertise spans mass spectrometry imaging, bioactive compounds analysis, and molecular interactions. With numerous publications in high-impact journals, her work has significantly advanced the understanding of natural products’ pharmacological properties.

👤Profile

ORCID

Scopus

Strengths for the Awards

  1. Strong Research Background in Biological Mass Spectrometry

    • Chen Rui has a well-established academic foundation, with advanced degrees in Physical Chemistry and Analytical Chemistry, specializing in Biological Mass Spectrometry.
    • Her Ph.D. from the Chinese Academy of Sciences adds credibility to her expertise.

  2. Extensive Publication Record in High-Impact Journals

    • With 13 publications in reputable journals like Analytical Chemistry, Journal of the American Society for Mass Spectrometry, and Phytotherapy Research, her research output is impressive.
    • Topics range from mass spectrometry imaging to bioactive compounds in Lepidium meyenii (Maca), demonstrating multidisciplinary expertise.

  3. Innovative Research Contributions

    • She has pioneered research on the metabolism and pharmacological value of bioactive compounds in Maca.
    • Her work in mass spectrometry imaging and electrospray ionization techniques has contributed to advancing analytical methodologies.

  4. Collaborative and Interdisciplinary Approach

    • Chen Rui has collaborated with multiple researchers across disciplines, evident from the diversity of co-authors in her publications.
    • Her studies bridge analytical chemistry, natural product pharmacology, and food science.

🎓 Education

Chen Rui has pursued an extensive academic journey in chemistry and analytical sciences:

  • Ph.D. in Analytical Chemistry (2009–Present) – Key Lab of Analytical Chemistry for Living Biosystems, Institute of Chemistry, Chinese Academy of Sciences
  • Master’s in Physical Chemistry (2006–2009) – Graduate School of South-Central University for Nationalities
  • Bachelor’s in Polymer Material and Engineering (1995–1999) – Xi’an Jiaotong University
  • Additional Research Training: (2011–2012) Institute of Atomic and Molecular Sciences, Academia Sinica, Taipei, Taiwan

🔬 Experience

With years of dedicated research, Chen Rui has worked in multiple academic and research institutions, focusing on advanced mass spectrometry techniques and their applications in biological systems. Her expertise includes:

  • Mass Spectrometry Imaging for tracking molecular distributions in biological samples.
  • Natural Product Chemistry, particularly focusing on Lepidium meyenii (Maca).
  • Bioanalytical Method Development, enhancing analytical accuracy and efficiency in biomedical research.

🧪 Research Interests On Chemistry

Chen Rui’s research revolves around:

  • Biological Mass Spectrometry and its application in drug discovery.
  • Metabolomics and Lipidomics using advanced MS techniques.
  • Bioactive Natural Compounds, especially the pharmacological properties of Maca-derived substances.
  • Matrix-Assisted Laser Desorption/Ionization (MALDI) Imaging for molecular visualization.

🏆 Awards & Recognitions

  • Recognized for outstanding contributions in biological mass spectrometry research.
  • Recipient of multiple grants for natural product pharmacology studies.
  • Honored for excellence in analytical chemistry and biomedical research.

📚 Publications

  • Evaluation of Biological Activity of a Lepidium meyenii (Maca) Polysaccharide‐Zinc Complex

    • Authors: Xiufeng Yang, Rui Chen
    • Publication Year: 2025
    • Citations: As this article is scheduled for publication in February 2025, citation data is currently unavailable.

  • Evaluation of the Biological Activity of Glucosinolates and Their Enzymolysis Products Obtained from Lepidium meyenii Walp. (Maca)

    • Authors: Suitong Yan, Jinchao Wei, Rui Chen
    • Publication Year: 2022
    • Citations: As of now, this article has been cited 5 times.

  • A review of the study of active components and their pharmacology value in Lepidium meyenii (Maca)

    • Authors: Rui Chen, Jinchao Wei, Yumei Gao
    • Publication Year: 2021
    • Citations: This review article has been cited 8 times.

  • Differentiation of Lepidium meyenii (Maca) from Different Origins by Electrospray Ionization Mass Spectrometry with Principal Component Analysis

    • Authors: Sihou Yang, Xiaochun Sun, Yumei Gao, Rui Chen
    • Publication Year: 2019
    • Citations: This study has been cited 12 times.

  • Tannic Acid: a Novel Calibrator for Facile and Accurate Mass Measurement of Electrospray Ionization Mass Spectrometry

    • Authors: Ling Fu, Xiaochun Sun, Yumei Gao, Rui Chen
    • Publication Year: 2019
    • Citations: This article has been cited 10 times.

  • Study of Complexes of Tannic Acid with Fe(III) and Fe(II)

    • Authors: Zhaofeng Fu, Rui Chen
    • Publication Year: 2019
    • Citations: This research has been cited 7 times.

🔎 Conclusion

Chen Rui is a pioneering scientist in biological mass spectrometry, with an extensive portfolio of research in bioactive compounds and metabolomics. Her contributions to analytical chemistry have paved the way for innovative applications in medicine and biotechnology. Through her cutting-edge research and dedication, she continues to impact the field, driving advancements in biomedical analysis and natural product discovery.