Dr. Fengfeng Chen – Materials Science and Engineering – Best Researcher Award

Dr. Fengfeng Chen - Materials Science and Engineering - Best Researcher Award

Zhejiang Sci-Tech University - China

Author Profile

ORCID 

Early academic pursuits 🎓

Fengfeng Chen embarked on his academic journey by pursuing a master's degree where he honed his skills in the design and synthesis of alkaline ionic liquids, particularly for carbon capture applications. This foundational work not only provided him with extensive hands-on experience in ionic liquids but also ignited his passion for developing innovative solutions to environmental challenges. His dedication to the field continued to flourish during his doctoral studies, where he delved deeper into materials science, focusing on metal-organic frameworks (MOFs) and heterogeneous catalysis.

Professional endeavors 🏢

Currently, Fengfeng holds the distinguished position of Professor at Zhejiang Sci-Tech University, where he is a prominent member of the School of Materials Science and Engineering. Under the guidance of Professor Gao Junkuo, he not only contributes to cutting-edge research but also plays a vital role in shaping the next generation of scientists by supervising seven master's students. His commitment to both research and teaching reflects his dedication to advancing knowledge in materials science.

Contributions and research focus 🔍

Fengfeng's research primarily revolves around the design, synthesis, and application of MOF-based materials and heterogeneous catalysts. He aims to bridge the gap between catalyst exploration and mechanistic studies, focusing on designing catalysts that demonstrate enhanced performance through a thorough understanding of Materials Science and Engineering their mechanisms. His innovative approach to catalyst design contributes significantly to the field, particularly in the context of carbon capture and conversion.

Accolades and recognition 🏅

Throughout his academic career, Fengfeng has garnered recognition for his research contributions, earning accolades for his innovative work in materials science and catalysis. His expertise in ionic liquids and MOFs has made him a sought-after researcher in the field, and he has published numerous influential papers in reputable Materials Science and Engineering journals. His work continues to receive attention and commendation from peers and the academic community.

Impact and influence 🌍

Fengfeng's research has a profound impact on addressing pressing environmental issues, particularly in the realm of carbon capture and sustainable materials development. By focusing on enhancing catalyst performance, his work contributes to advancing technologies that can mitigate climate change and promote Materials Science and Engineering sustainable practices. His influence extends beyond academia, inspiring students and researchers to engage in innovative approaches to environmental challenges.

Legacy and future contributions đź”®

Fengfeng Chen's legacy is characterized by his commitment to advancing materials science and catalysis through innovative research and dedicated teaching. His ongoing work in Professor Gao Junkuo's laboratory will continue to foster the development of novel materials and sustainable solutions for environmental challenges. As he mentors the next generation of scientists, his contributions will undoubtedly leave a lasting mark on the field, inspiring future advancements in materials science and catalysis.

Notable Publications 

  • Title: Enhancement of CO2 adsorption and separation in basic ionic liquid/ZIF-8 with core–shell structure
    Authors: Shiyu Nie, Encheng Liu, Fengfeng Chen, Yilin Ma, Kai Chen, Junkuo Gao
    Journal: Chemical Communications
    Year: 2024
    DOI: 10.1039/D4CC00478G
  • Title: In Situ Pyrolysis of ZIF-67 to Construct Co2N0.67@ZIF-67 for Photocatalytic CO2 Cycloaddition Reaction
    Authors: Lingjing Jiang, Dengqi Wu, Zishan Huang, Fengfeng Chen, Kai Chen, Aziz Bakhtiyarovich Ibragimov, Junkuo Gao
    Journal: Inorganic Chemistry
    Year: 2024-08-05
    DOI: 10.1021/acs.inorgchem.4c02504
  • Title: Metal–Organic-Framework-Derived Bromine and Nitrogen Dual-Doped Porous Carbon for CO2 Photocycloaddition Reaction
    Authors: Tingting Wang, Fengfeng Chen, Lingjing Jiang, Jinze Li, Kai Chen, Junkuo Gao
    Journal: Inorganic Chemistry
    Year: 2024-03-04
    DOI: 10.1021/acs.inorgchem.3c04308
  • Title: Construction of Hollow Ultrasmall Co3O4 Nanoparticles Immobilized in BN for CO2 Conversion
    Authors: Tingting Wang, Xiaomin Ma, Fengfeng Chen, Hong An, Kai Chen, Junkuo Gao
    Journal: Langmuir
    Year: 2024-02-07
    DOI: 10.1021/acs.langmuir.3c03804
  • Title: An ionic liquid as an interface modulator for highly efficient and stable perovskite solar cells
    Authors: Xiang Chen, Lixin Song, Ningxia Gu, Pengyun Zhang, Lei Ning, Pingfan Du, Fengfeng Chen, Jie Xiong
    Journal: Sustainable Energy & Fuels
    Year: 2023
    DOI: 10.1039/D2SE01535H

Assoc Prof Dr. Junxing Han – Nano Materials and Nano Catalysis – Best Researcher Award

Assoc Prof Dr. Junxing Han - Nano Materials and Nano Catalysis - Best Researcher Award

Institute of Resources and Environment, Beijing Academy of Science and Technology - China

AUTHOR PROFILE

SCOPUS

ORCID  

EARLY ACADEMIC PURSUITS

Junxing Han embarked on his academic journey with a Bachelor's degree from Hebei Normal University, where he developed a novel organometallic reduction method to convert D-(-)-α-phenylglycine to R-(-)-2-phenylglycinol. He continued his studies at the same institution, obtaining a Master's degree under the supervision of Professors Yanqin Liu and Shitian Han, where he synthesized various anticancer compounds and conducted successful cytotoxicity tests.

PROFESSIONAL ENDEAVORS

Han's professional career is marked by several prestigious positions. He served as an Assistant Professor at the Institute of Process Engineering, Chinese Academy of Sciences from 2012 to 2015. Subsequently, he held post-doctoral positions at Tulane University and the University of Helsinki, working on advanced catalysis and synthesis techniques. From 2018 to 2020, he was an Associate Professor at the Beijing Institute of Nanoenergy and Nanosystems, before moving to his current role at the Institute of Resources and Environment, Beijing Academy of Science and Technology in 2020.

CONTRIBUTIONS AND RESEARCH FOCUS ON NANO MATERILAS AND NANO CATALYSIS

Throughout his career, Han has made significant contributions to the field of catalysis and energy storage. His research interests include organic-inorganic hybrid materials, single-atom catalysts, Nano Materials and Nano Catalysis  and electrocatalysts for energy applications. Notable projects include the development of Fe-based single-atom catalysts for oxygen reduction reactions and the synthesis of dual-site single-atom catalysts for advanced oxidation reactions and hydrogen evolution reactions.

IMPACT AND INFLUENCE

Han's research has had a considerable impact on the scientific community, evidenced by his extensive publication record. His work on single-atom Fe-Nx-C catalysts and their applications in zinc-air batteries has been particularly influential, Nano Materials and Nano Catalysis with high citation rates in prestigious journals like Advanced Functional Materials and Nano Energy. His pioneering research has led to advancements in energy storage technologies and green chemistry, positioning him as a leading figure in his field.

LEGACY AND FUTURE CONTRIBUTIONS

Junxing Han's legacy is defined by his innovative approach to catalysis and sustainable energy solutions. His research has paved the way for more efficient and environmentally friendly technologies in the field of renewable energy and chemical engineering. Looking forward, Han aims to further explore the potential of single-atom catalysts and hybrid materials, contributing to the development of next-generation energy storage systems and green catalytic processes.

NOTABLE PUBLICATIONS

Functionalized melamine-based Dendron-OMS hybrids as highly-efficient catalysts for the nitroaldol (Henry) reaction   2024

Toxicity reduction of reverse osmosis concentrates from petrochemical wastewater by electrocoagulation and Fered-Fenton treatments  2022(19)

Pore Modified FDU-12 as a Novel Container for Dendron Growth  2017(5)

N-Doped Sub-3 nm Co Nanoparticles as Highly Efficient and Durable Aerobic Oxidative Coupling Catalysts  2016(16)

Promoting effects of MgO, (NH4)2SO4 or MoO3 modification in oxidative esterification of methacrolein over Au/Ce0.6Zr0.4O2-based catalysts  2016(27)