Carolin Mercy | Electrocatalysis | Best Researcher Award

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Ms. Carolin Mercy | Electrocatalysis | Best Researcher Award

Ms at Carolin Mercy SRM IST, India

Carolin Mercy Enoch is a dedicated Ph.D. candidate in Chemistry at SRM Institute of Science and Technology, India, focusing on innovative materials for energy conversion and storage devices. With a keen interest in materials chemistry, particularly perovskites, she has accumulated over five years of experience in advanced laboratories. Carolin is passionate about developing eco-friendly and efficient electrocatalysts, with a commitment to advancing renewable energy technologies. Her strong analytical skills and expertise in data interpretation complement her research endeavors. As a single woman from India, she aims to contribute significantly to the field of chemistry, inspiring others along her journey.

Profile

Scholar

šŸŽ“ Education

Carolin holds a B.Sc. in Chemistry from Lady Doak College, Madurai, and an M.Sc. in Chemistry from Madras Christian College, both with first-class distinctions. She pursued her M.Phil. at Madras University, where she graduated with first-class honors. Currently, she is working towards her Ph.D. at SRM Institute of Science and Technology, focusing on the strategic design of oxygen-deficient perovskite oxides for bifunctional electrocatalysts. Her educational journey reflects her dedication to academic excellence and her passion for the field of chemistry, equipping her with a strong foundation for her research pursuits.

šŸ’¼Ā Experience

Carolin has been a Ph.D. scholar at SRM IST since 2020, specializing in the synthesis of electro-catalysts for oxygen reduction reactions. Prior to this, she served as an Assistant Professor at VSB Engineering College, where she contributed to undergraduate education and mentored students in the field of Chemistry. Her research experience includes various projects, such as the strategic design of bifunctional electrocatalysts for energy devices and electroanalysis of compounds at chemically modified electrodes. Carolin’s diverse professional background enhances her research capabilities and positions her as a valuable asset in academic and research settings.

šŸ† Awards & Honors

Carolin has received several accolades for her academic and research achievements, including the “Best Poster Presentation” at RASTH 2021 and the Dr. Parrivendhar Research Colloquium in 2022 at SRM IST. She also won first prize in the Science Quiz Competition during National Science Day celebrations in 2015 at the University of Madras. These recognitions highlight her commitment to excellence and her contributions to the scientific community. Carolin’s awards reflect her dedication to advancing research in chemistry and her ability to communicate her findings effectively.

šŸ”¬ Research Focus

Carolin’s current research focuses on improving the activity of non-noble metal-based electrocatalysts for oxygen reduction and evolution reactions to replace expensive platinum catalysts. She aims to enhance the stability and durability of composite materials while maintaining electrocatalytic activity. Her work involves studying the mechanisms and bonding of electrocatalysts, conducting durability tests, and investigating various catalysts using electrochemical techniques like cyclic voltammetry. Carolin is also exploring electrocatalysis for CO2 reduction and hydrogen evolution reactions, demonstrating her commitment to sustainable energy solutions and innovative materials science.

Conclusion šŸ“

Carolin Mercy Enoch is a highly motivated researcher with a strong academic foundation, significant contributions to materials chemistry, and a proven ability to communicate her work effectively. Her strengths in research, awards, and publications position her well for the Best Researcher Award. However, she could benefit from broadening her collaborative networks, enhancing the visibility of her research, focusing on grant acquisition, and further developing her teaching experience. By addressing these areas for improvement, she can amplify her contributions to the field and solidify her standing as a leading researcher in materials chemistry.

Publications Top Notes

  • Strategic Design and Insights into Lanthanum and Strontium Perovskite Oxides for Oxygen Reduction and Oxygen Evolution Reactions
    Authors: S Ingavale, M Gopalakrishnan, CM Enoch, C Pornrungroj, M Rittiruam, …
    Year: 2024
    Journal: Small, 20 (19), 2308443

 

  • Molten salt-directed synthesis of strontium manganese perovskite oxide: an active electrocatalyst for the oxygen reduction reaction and oxygen evolution reaction
    Authors: CM Enoch, S Ingavale, P Marbaniang, I Patil, A Swami
    Year: 2023
    Journal: Journal of Materials Chemistry A, 11 (40), 21780-21792

 

  • Strategic Design and Insights into Lanthanum and Strontium Perovskite Oxides for Oxygen Reduction and Oxygen Evolution Reactions (Duplicate entry)
    Authors: S Ingavale, M Gopalakrishnan, CM Enoch, C Pornrungroj, M Rittiruam, …
    Year: 2024
    Journal: Small, 20 (19), 2470144

 

  • Molten salt-directed synthesis of strontium manganese perovskite oxide: an active electrocatalyst for the oxygen reduction reaction and oxygen evolution reaction (Duplicate entry)
    Authors: I Patil, P Marbaniang, A Swami, CM Enoch, S Ingavale
    Year: 2023
    Journal: Royal Society of Chemistry

Jun Yang | Electrochemical Energy Materials | Best Researcher Award

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Assoc. Prof. Dr.Ā Jun Yang | Electrochemical Energy Materials | Best Researcher AwardĀ 

Assoc. Prof. Dr at Shaanxi University of Science & Technology,Ā  China

Jun Yang is an Associate Professor at Shaanxi University of Science and Technology, Xiā€™an, China. He specializes in physical chemistry, focusing on electrochemical energy storage and conversion. With over 50 published papers, he has garnered significant recognition in his field, achieving an h-index of 26. Yang completed his Ph.D. at Fudan University and has gained international experience through a postdoctoral fellowship at Hanyang University, Korea. He is known for his innovative research in cathode materials for lithium-ion and sodium-ion batteries, making significant contributions to energy storage technology.

Profile

Scholar

Education šŸŽ“

Jun Yang obtained his Bachelor of Science in Chemistry from Heilongjiang University in 2009, where he continued to earn a Master of Science in Inorganic Chemistry in 2012 under Prof. Honggang Fu. He then pursued a Ph.D. in Physical Chemistry at Fudan University, completing his degree in 2016 under the supervision of Prof. Yongyao Xia. His academic journey reflects a strong foundation in chemistry and materials science, paving the way for his research contributions in energy storage systems.

Experience šŸ’¼

Yang has been an Associate Professor at Shaanxi University of Science and Technology since 2016, focusing on materials science and engineering. He held a postdoctoral fellowship at Hanyang University in Korea from 2022 to 2023, working under Prof. Yang-Kook Sun. His role at the university involves teaching, mentoring students, and leading research projects in electrochemical energy storage. With extensive research experience, he has contributed to various national and international collaborations, enhancing his expertise in battery materials and applications.

Awards and Honors šŸ†

Jun Yang has received numerous accolades throughout his career. He was recognized as a High-level Young Talent in Shaanxi Province in 2017 and received the Excellent Young Talent award from Shaanxi University of Science and Technology in 2016. His Masterā€™s dissertation was honored as Excellent in Heilongjiang Province in 2012. Yang also earned the Excellent Poster Prize at the 6th Sino-US Nano Forum in 2011 and was appointed as the guest editor for the journal Energies in 2023, reflecting his esteemed position in the academic community.

Research Focus šŸ”¬

Jun Yangā€™s research focuses on electrochemical energy storage and conversion, particularly in developing cathode materials for lithium-ion and sodium-ion batteries. He explores electrocatalysts for water splitting and fuel cells, aiming to enhance energy efficiency and storage capabilities. His current projects include investigating the phase transition behavior and sodium storage mechanisms of layered oxide cathodes. Yang’s work aims to address challenges in energy storage technology, contributing to sustainable energy solutions for the future.

Conclusion

Associate Professor Jun Yang is a strong candidate for the Best Researcher Award due to his innovative research, significant contributions to the field of materials science, and his leadership within the academic community. His strengths, particularly in publication and funding, underline his potential for future impact. By addressing areas for improvement, such as enhancing collaborative networks and engaging in public outreach, he can further elevate his contributions and influence in the scientific community. Yang’s dedication to advancing energy storage technologies positions him as a leader in the field, deserving of recognition and support through such awards.

Publications Top Notes

    1. Ni-Rich Layered Cathodes for Lithium-Ion Batteries: From Challenges to the Future
      Jun Yang, Xing-hui Liang, Hoon-Heen Ryu, Chong S. Yoon, Yang-Kook Sun
      Energy Storage Materials, 2023, 63, 102969.
      (Cover Paper)
    1. Interstitial Hydrogen Atom to Boost Intrinsic Catalytic Activity of Tungsten Oxide for Hydrogen Evolution Reaction
      Jun Yang, Yifan Cao, Shuyu Zhang, Qingwen Shi, Siyu Chen, Shengcai Zhu, Yunsong Li, Jianfeng Huang
      Small, 2023, 19(29), 2207295.
      (Cover Paper)
    1. Spinel-Layered Intergrowth Composite Cathode for Sodium-Ion Batteries
      Manjing Tang, Jun Yang, Hao Liu, Xueying Chen, Luo Kong, Zhanwei Xu, Jianfeng Huang, Yongyao Xia
      ACS Applied Materials & Interfaces, 2020, 12, 45997.
    1. Oā‚ƒ-Type Layered Ni-Rich Oxide: A High-Capacity and Superior-Rate Cathode for Sodium-Ion Batteries
      Jun Yang, Manjing Tang, Hao Liu, Xueying Chen, Zhanwei Xu, Jianfeng Huang, Yongyao Xia
      Small, 2019, 201905311.
    1. Overall Structural Modification of Layered Ni-Rich Cathode for Enhanced Cycling Stability and Rate Capability at High Voltage
      Manjing Tang, Jun Yang, Nantao Chen, Shengcai Zhu, Xing Wang, Tian Wang, Congcong Zhang, Yongyao Xia
      Journal of Materials Chemistry A, 2019, 7, 6080-6089.

 

 

Pablo Hegel | Thermodynamics | Best Faculty Award

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Dr. Pablo Hegel | Thermodynamics | Best Faculty Award

Dr at Universidad Nacional del Sur Argentina

Dr. Pablo Ezequiel Hegel is a Research Scientist at CONICET and a Professor of Chemical Engineering at Universidad Nacional del Sur (UNS) in BahĆ­a Blanca, Argentina šŸ‡¦šŸ‡·. With a PhD in Chemical Engineering from UNS (2008), his expertise lies in high-pressure process thermodynamics . He specializes in the analysis, design, and development of high-pressure experimental research units, focusing on the measurement of phase equilibria and thermophysical properties. Dr. Hegel has extensively worked on supercritical COā‚‚ extraction and fractionation of natural products, as well as biomass valorization using intensified pressure technologies . He has collaborated with various industries, contributing to technological developments and experimental works. Fluent in Spanish (native), English, and with working proficiency in French, he has also authored numerous peer-reviewed articles and participated in international conferences .

 

Publication profile

Scopus

šŸŽ“ Education

PhD in Chemical Engineering (2008)Ā  Universidad Nacional del Sur – PLAPIQUI Thesis: “Phase Equilibria and Processing of Vegetable Oils Using Supercritical Fluids”. Bachelor’s Degree in Chemical Engineering (2002)Ā  Department of Chemical Engineering, Universidad Nacional del Sur

 

šŸ‘Øā€šŸ”¬ Experience

Research Scientist at CONICET (2010ā€“Present)Ā  Working at PLAPIQUI’s Laboratory of High Pressure ā€“ Process Thermodynamics, focusing on high-pressure experimental units, phase equilibria, supercritical COā‚‚ extraction, and biomass valorization. Professor at UNS (2019ā€“Present)
Teaching “Chemical Thermodynamics for Engineers” and “Unit Operations I” in the Department of Chemical Engineering. Adjunct and Assistant Professor at UNS (2013ā€“2019)Ā  Taught courses like Introduction to Chemical Engineering Thermodynamics and supervised seminars on high-pressure process engineering. Postdoctoral Fellow at LGC-UMR 5503, ENSIACET, INP Toulouse, France (2009ā€“2010) šŸ‡«šŸ‡·
Worked on supercritical extraction and purification of value-added lipids from yeast.

šŸ† Awards and Honors

PhD Fellowship from CONICET (2004ā€“2008)Ā  Supported his doctoral research on supercritical fluids.. Postdoctoral Fellowship from ECOS-ALPHA Program (2009ā€“2010)Ā  Conducted research in France on supercritical extraction technologies. Research Grants and Projects Leader
Directed multiple grants focused on supercritical technologies for biomass processing and sustainable product design. Industrial Collaborations
Led experimental technological works for companies like Procter & Gamble, YPF TecnologĆ­a S.A., and others, focusing on high-pressure processes and supercritical extraction.

šŸ”¬ Research Focus

High-Pressure Process ThermodynamicsĀ  Specializes in designing and developing experimental units for measuring phase equilibria and thermophysical properties. Supercritical Fluid ExtractionĀ  Expertise in supercritical COā‚‚ extraction and fractionation of natural products and oils. Biomass ValorizationĀ  Utilizes intensified pressure technologies for converting biomass into valuable products. Technological Innovations
Develops high-pressure reactors, viscometers, and extraction units for industrial applications.

Publication

 

  1. Title: Density and viscosity of orange peel oil saturated with pressurized CO2
    Authors: Fortunatti-Montoya, M., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2024
    Volume: 214
    Article: 106373

 

  1. Title: Decaffeination of yerba mate (Ilex paraguariensis) by pressurized liquid CO2 extraction: A feasible process?
    Authors: Granone, L.I., SƔnchez, F.A., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2024
    Volume: 213
    Article: 106368

 

  1. Title: Purification of synthetic oils using liquefied gases of reduced flammability
    Authors: Pizzano, A., Rodriguez Reartes, S.B., Hegel, P.E.
    Journal: Chemical Engineering Research and Design
    Year: 2023
    Volume: 195
    Pages: 192ā€“206

 

  1. Title: Citrus fruit processing by pressure intensified technologies: A review
    Authors: Granone, L.I., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2022
    Volume: 188
    Article: 105646
    Citations: 7

 

  • Title: Alkaloid-rich vs. antioxidant-rich yerba mate (Ilex paraguariensis) extracts: Exploiting the selectivity of supercritical CO2 using hydrated ethanol as co-solvent
    Authors: Hegel, P., Granone, L.I., Hrnčič, M.K., Kotnik, P., Knez, Z.
    Journal: Journal of Supercritical Fluids
    Year: 2021
    Volume: 172
    Article Number: 105200
    Citations: 12

 

  • Title: Density and viscosity of mixtures of glycerol acetates saturated with CO2 for the design of a supercritical fractionation column
    Authors: Fortunatti-Montoya, M., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2021
    Volume: 168
    Article Number: 105065
    Citations: 4

 

  • Title: Biodiesel production from Halamphora coffeaeformis microalga oil by supercritical ethanol transesterification
    Authors: Hegel, P.E., MartĆ­n, L.A., Popovich, C.A., Damiani, C., Leonardi, P.I.
    Journal: Chemical Engineering and Processing – Process Intensification
    Year: 2019
    Volume: 145
    Article Number: 107670
    Citations: 19

 

  • Title: Fractionation of glycerol acetates with supercritical CO2
    Authors: Fortunatti-Montoya, M., SƔnchez, F.A., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2019
    Volume: 153
    Article Number: 104575
    Citations: 6

 

  • Title: Experimental High-Pressure Isochoric/Isoplethic Equilibrium for the Systems Propane + n-Pentane and Propane + Diethyl Ether
    Authors: Menossi, M., Hegel, P.E., Milanesio, J.M., Camy, S., Zabaloy, M.S.
    Journal: Journal of Chemical and Engineering Data
    Year: 2019
    Volume: 64(9)
    Pages: 3848ā€“3860
    Citations: 1

āœ… Conclusion:

Pablo Ezequiel Hegel is highly suitable for the Best Faculty Award, given his exceptional scientific contributions, innovation in high-pressure process engineering, and strong industrial ties. His expertise in supercritical technology and thermodynamics, coupled with his ability to translate research into practical applications, makes him a strong contender for this accolade. Enhancing his profile with more evidence of academic leadership and mentorship could further solidify his candidacy.

JiaHang Chen | hydromechanics and thermodynamics | Best Researcher Award

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Mr. JiaHang Chen | hydromechanics and thermodynamics | Best Researcher Award

Mr at University of Macau, China

JiaHang Chen is a Ph.D. candidate in Electromechanical Engineering at the University of Macau. He earned his Masterā€™s degree from the same institution and holds Bachelorā€™s degrees from Xiamen University of Technology and Chung Hua University. JiaHang has made significant contributions through projects like the award-winning automatic packaging system and bus engine compartment cleaning equipment. His research focuses on heat transfer and pressure drop characteristics using traditional and 3D-printed mini tubes, with publications in Journal of Enhanced Heat Transfer and Journal of Heat Transfer Engineering. JiaHang has received multiple awards and scholarships, including Best Paper Awards at the International Symposium on Thermal-Fluid Dynamics.

Publication profile

Scopus

 

JiaHang Chen: Evaluation for the Best Researcher Award

šŸŒŸ Strengths for the Award

Strong Academic Background: JiaHang Chen has demonstrated consistent academic excellence, starting from a Bachelor’s degree in Mechanical Manufacturing and progressing through Master’s and PhD studies in Electromechanical Engineering. His educational journey shows a clear focus and dedication to the field. Innovative Research Contributions: Chen has made significant contributions through various research projects and papers. Notable achievements include: National Patents: Successful applications for national invention and utility model patents for innovative designs such as the automatic cleaning device for bus engines. High-Impact Publications: His research on heat transfer and pressure drop characteristics, particularly involving 3D-printed mini tubes, has been published in reputable journals and presented at major international conferences. Recognition and Awards: Chen has received multiple accolades, including Best Paper Awards at two International Symposia on Thermal-Fluid Dynamics. These awards highlight the impact and quality of his research. Research Grants and Scholarships: He has been awarded several scholarships and research assistantships from prestigious institutions, showcasing recognition and support from the academic community.

šŸ”§ Areas for Improvement

Broader Research Scope: While Chen has a strong focus on thermal-fluid dynamics, expanding his research into other emerging areas within electromechanical engineering could diversify his contributions and increase his impact. Collaborations and Networks: Enhancing collaborations with international researchers and institutions could provide additional opportunities for interdisciplinary research and increase visibility in the global research community. Public Engagement: Increasing engagement with the public and industry through outreach programs or practical applications of his research could further highlight the real-world impact of his work.

šŸŽ“ Education:

Ph.D. in Electromechanical Engineering, University of Macau (Aug 2022 – Present). M.Sc. in Electromechanical Engineering, University of Macau (Sep 2019 – Aug 2022).Ā Bachelor of Mechanical Manufacturing, Chung Hua University (Sep 2016 – Jun 2017). Bachelor of Mechanical Manufacturing, Xiamen University of Technology (Sep 2014 – Jun 2018)

šŸ“‘ Academic Papers & Projects:

Jan 2016 ā€“ Jun 2016: Competition Project – Small Gantry Type Flexible Express Automatic Packaging System; won 1st prize. Jan 2018 ā€“ Jun 2018: Graduation Project – Automatic Cleaning Equipment for Bus Engine Compartment; applied for national invention and utility model patents. Jul 2022 ā€“ Aug 2022: Conference Paper – Heat Transfer and Pressure Drop Characteristics for Vertical Downflow; presented at ISTFD 2022. Nov 2022 ā€“ Apr 2023: Journal Paper – Heat Transfer and Pressure Drop Characteristics; published in Journal of Enhanced Heat Transfer (JCR Q3). Jul 2023 ā€“ Aug 2023: Conference Paper – Heat Transfer and Pressure Drop Characteristics for Horizontal Flow; won Best Paper Award at ISTFD 2023. Oct 2023 ā€“ Aug 2024: Journal Paper – Heat Transfer Enhancement of 3D-Printed Mini Tubes; submitted to Journal of Heat Transfer Engineering (JCR Q3). Jul 2024 ā€“ Aug 2024: Conference Paper – Horizontal Flow Characteristics; won Best Paper Award at ISTFD 2024.

šŸ› ļø Skills & Certificates:

CET-4 (Dec 2017), CET-6 (Jun 2018), Microsoft Office Specialist (MOS) (Apr 2021), BIM Skill Proficiency Test Level I (Dec 2021)

šŸ† Honors & Scholarships:

Jun 2016: 1st Prize, Fujian University Student Mechanical Innovation Competition. Dec 2016: 3rd-Class Excellent Student Scholarship, Xiamen University of Technology. Apr 2019: Utility Model Patent (CN 208682798 U). Nov 2020: National Invention Patent (CN 109109826 B). Jan 2021 & Jan 2022: Scholarship of Institute for the Development and Quality, Macau. Jan 2023 & Jan 2024: Research Assistantship from NSFC, China & FDCT, Macau. Jul 2023: Utility Model Patent (CN 219336363 U). Jul 2023 & Jul 2024: Best Paper Award, International Symposium on Thermal-Fluid Dynamics

Publication top notes

  • Friction Surfacing of Precipitation Hardening Stainless Steel Coatings for Cavitation Erosion Resistance
    • Journal: Surface and Coatings Technology
    • Year: 2022
    • Volume: 434
    • DOI: 10.1016/j.surfcoat.2021.128206
    • Contributors: D. Guo, J. Chen, V.A.M. Cristino, D. Zhang, X. Li
    • Summary: This article explores the use of friction surfacing as a technique to apply precipitation hardening stainless steel coatings, which are evaluated for their resistance to cavitation erosion. The study shows that these coatings significantly enhance the durability of surfaces exposed to erosive environments, making them suitable for industrial applications where erosion resistance is critical.
    • Citations: 13

 

  • Pitting Corrosion Behavior of Friction-Surfaced 17-4PH Stainless Steel Coatings with and without Subsequent Heat Treatment
    • Journal: Corrosion Science
    • Year: 2021
    • Volume: 193
    • DOI: 10.1016/j.corsci.2021.109887
    • Contributors: D. Guo, J. Chen, X. Chen, D. Zhang, X. Li
    • Summary: This article investigates the pitting corrosion resistance of 17-4PH stainless steel coatings applied via friction surfacing, with a focus on the effects of subsequent heat treatments. The findings indicate that heat treatment can further improve the corrosion resistance of these coatings, making them more suitable for environments where pitting corrosion is a concern.
    • Citations: 17

 

šŸ† Conclusion

JiaHang Chen demonstrates exceptional promise and achievement in his field, supported by a strong educational background, innovative research, and notable awards. His consistent performance and contributions to thermal-fluid dynamics make him a strong candidate for the Best Researcher Award. Enhancing his research scope, fostering collaborations, and engaging with the broader community could further elevate his profile and impact.

 

Fanpeng Kong | Fuel cells | Best Researcher Award

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Dr. Fanpeng Kong | Fuel cells | Best Researcher Award

Dr at Harbin Institute of Technology China

Dr. Fanpeng Kong is an Associate Professor at the School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China. He completed his doctoral studies in Electrochemistry at Harbin Institute of Technology, followed by a visiting scholarship at the University of Western Ontario, Canada. Dr. Kong’s research focuses on electrochemical energy conversion, particularly in oxygen reduction reactions and methanol oxidation. He has published several high-impact papers in renowned journals such as Angewandte Chemie and ACS Catalysis. A member of the Chinese Chemical Society, he also serves on the editorial boards of Frontiers in Energy Research and The Innovation.

Publication profile

Scopus

Scholar

Research for Best Researcher Award: Dr. Fanpeng Kong

šŸŒŸ Strengths for the Award

Expertise in Electrochemistry: Dr. Fanpeng Kong has a strong background in electrochemistry, evidenced by his comprehensive education at Harbin Institute of Technology and international experience as a visiting student at the University of Western Ontario. His research focuses on high-impact areas such as oxygen reduction reactions (ORR) and solid-state batteries, which are crucial for advancing sustainable energy technologies. High-Impact Publications: Dr. Kong has authored several influential papers in prestigious journals, including Angewandte Chemie, Science Advances, and ACS Catalysis. His work on dual-atom catalysts and solid-state batteries demonstrates his ability to contribute to cutting-edge research in energy storage and conversion. International Collaboration: His collaboration with international researchers, particularly during his time in Canada, highlights his ability to work across borders and contribute to global scientific endeavors. This international experience enriches his research with diverse perspectives and methodologies. Academic Recognition: Dr. Kong’s roles as a Guest Editor for Frontiers in Energy Research and as a member of the Young Editorial Board for The Innovation reflect his recognition as an emerging leader in his field. His membership in the Chinese Chemical Society further indicates his active involvement in the scientific community. Innovative Research: Dr. Kong’s work is at the forefront of developing new materials and catalysts for energy applications. His research on tailoring atomic strain environments and engineering crystal structures for high-performance batteries showcases his innovative approach to solving complex problems in electrochemistry.

šŸ” Areas for Improvement

Broader Application of Research: While Dr. Kong’s research is highly technical and specialized, there could be more emphasis on the practical applications and commercialization potential of his work. Highlighting how his research can lead to real-world solutions for energy challenges could strengthen his case for broader recognition. Public Science Communication: Increasing efforts to communicate his research to a non-specialist audience could enhance the public’s understanding of his work’s importance. Engaging in outreach activities or writing popular science articles could help bridge the gap between his research and its societal impact. Interdisciplinary Collaboration: Expanding his collaborations to include researchers from fields such as materials science, environmental engineering, and industrial chemistry could lead to innovative interdisciplinary projects that further amplify the impact of his research.

šŸŽ“ Education

Doctoral Studies in Electrochemistry Harbin Institute of Technology, China (2014 – 2019) Supervised by Prof. Dr. Geping Yin. Visiting Student
University of Western Ontario, Canada (2017 – 2019) Supervised by Prof. Dr. Xueliang (Andy) Sun. Undergraduate Studies in Electrochemistry
Harbin Institute of Technology, China (2010 – 2014)

šŸ¢ Professional Appointments

Associate Professor School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China (2023 – Present). Assistant Professor
School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China (2020 – 2022)

šŸ† Honors & Awards

Member: Chinese Chemical Society. Guest Editor: Frontier in Energy Research. Young Editorial Board: The Innovation

Publication top notes

  1. Title: Light Enables the Cathodic Interface Reaction Reversibility in Solid-State Lithium-Oxygen Batteries
    Authors: Ren, L., Zheng, M., Kong, F., Jiang, Z., Wang, J.
    Journal: Angewandte Chemie – International Edition, 2024, 63(17), e202319529
    Citations: 0

 

  1. Title: Tailoring atomic strain environment for high-performance acidic oxygen reduction by Fe-Ru dual atoms communicative effect
    Authors: Li, L., Zhu, J., Kong, F., Du, C., Yin, G.
    Journal: Matter, 2024, 7(4), pp. 1517ā€“1532
    Citations: 6

 

  1. Title: Maintaining Interfacial Transports for Sulfide-Based All-Solid-State Batteries Operating at Low External Pressure
    Authors: Zhao, W., Zhang, Y., Sun, N., Lou, S., Wang, J.
    Journal: ACS Energy Letters, 2023, 8(12), pp. 5050ā€“5060
    Citations: 8

 

  1. Title: Concentration induced modulation of solvation structure for efficient lithium metal battery by regulating energy level of LUMO orbital
    Authors: Kang, C., Zhu, J., Wang, Y., Kong, F., Yin, G.
    Journal: Energy Storage Materials, 2023, 61, 102898
    Citations: 10

 

  1. Title: Uncovering the degradation mechanism induced by ion-diffusion kinetics in large-format lithium-ion pouch cells
    Authors: Zhou, S., Zhang, X., Chen, C., Qiao, Y., Wang, J.
    Journal: Journal of Energy Chemistry, 2023, 83, pp. 98ā€“105
    Citations: 6

 

  1. Title: Solvent effect to modulate nitrogen dopant in Co-N-C catalysts for oxygen reduction reaction acceleration
    Authors: Li, L., Han, G., Wen, Y., Du, C., Yin, G.
    Journal: Fuel, 2023, 345, 128199
    Citations: 5

 

  1. Title: Erratum: Effective transport network driven by tortuosity gradient enables high-electrochem-active solid-state batteries
    Authors: Liu, Q.-S., An, H.-W., Wang, X.-F., Wang, J., Wang, J.-J.
    Journal: National Science Review, 2023, 10(7), nwad135
    Citations: 0

šŸ† Conclusion

Dr. Fanpeng Kong is a strong candidate for the Research for Best Researcher Award due to his significant contributions to electrochemistry, high-impact publications, and recognized leadership in the field. His innovative research on energy storage and conversion positions him as a leading figure in sustainable energy research. By focusing on the broader application of his work, public communication, and interdisciplinary collaboration, Dr. Kong can further elevate his research profile and maximize the impact of his contributions.

ā€ŒArash Pakravesh | Thermodynamics | Best Researcher Award

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Dr. ā€ŒArash Pakravesh | Thermodynamics | Best Researcher Award

Dr at Bu-Ali Sina university, Iran

Ph.D. in Environmental Science and Engineering from East China University of Science and Technology, specializing in graphene oxide-supported nanocomposites for pollutant degradation. Currently an Instructor at the University of Minnesota, previously an Assistant Adjunct Professor at UCLA. Extensive teaching experience in mathematics and programming. Recognized with multiple awards, including the Devbhumi Education Excellence Award 2023. Leading research projects in nanozyme synthesis and environmental remediation. Strong skills in heterogeneous catalysis and catalyst characterization, with a proven ability to work in teams and communicate effectively.

Profile

šŸŽ“ Education

Ph.D. in Environmental Science and Engineering East China University of Science and Technology, Shanghai, China September 2015 ā€” July 2019
Research Work: Synthesis of graphene oxide-supported heterogeneous nanocomposites for degradation of chlorinated hydrocarbons.M.Sc. in Chemical Engineering University of Engineering and Technology, Lahore, Pakistan September 2010 ā€” December 2013 Research Work: Prediction of oil extraction and yield from pyrolysis of rice bran using Response Surface Methodology (RSM)B.Sc. in Chemical Engineering
University of Engineering and Technology, Lahore, Pakistan August 2005 ā€” September 2009

 

šŸ§‘ā€šŸ« Working & Teaching Experience

University of Minnesota, Minneapolis, MN Instructor Aug 2022 ā€“ Present Math 2243: Linear Algebra and Differential Equations (Spring 2024, Spring 2023)University of California, Los Angeles, CA Assistant Adjunct Professor Jun 2022 – Aug 2022 Taught introductory programming course in C++ (PIC 10A) Teaching Assistant Aug 2017 ā€“ Jun 2021 Courses: PIC 10ABC (C++ programming), PIC 16 (Python with Applications), Math 164 (Fundamentals of optimization), Math 151B (Applied numerical methods) Mentor, Directed Reading Program (DRP) Jan 2021 – Mar 2022Mentored undergraduate students on projects: Unsupervised learning of image segmentation, Generative Adversarial Networks, Applications of mean field games in finance University of California, Los Angeles, CA Research Assistant Aug 2017 ā€“ Aug 2022Developed algorithms for Wasserstein distance, fast gradient flows solutions, and mean-field control models George Mason University, Fairfax, VA Research Assistant May 2017 ā€“ May 2018Developed deep learning methods for classification tasks Cheiron, Inc., Washington D.C. Actuary Feb 2015 – Sep 2016Actuarial pricing and projection models, actuarial valuation reports

šŸŽ–ļø Achievements

Devbhumi Education Excellence Award 2023 Awarded By: Chief Minister Uttarakhand, Mr. Pushkar Singh Dhami Date: 27 November 2023 Young Alumni Award in Engineering 2024 Awarded By: Technical Education Minister Uttarakhand, Mr. Subodh Uniyal Date: 27 January 2024 Award for Excellence In Research 2024 Awarded By: EET CRS 7 Continents R&D Awards Date: 10 March 2024

šŸ”¬ Ongoing Projects

Foreign Expert Introduction Plan of Henan Province Project: Key technologies and applications of novel nanozyme synthesis in the biomedical industry Role: Foreign Expert Contributor Duration: 2023-2024 Henan Province Postdoctoral Startup Fund Project: Synthesis of Fe-bimetallic Nanocomposite for Degradation of Environmental Contaminants Role: Principal Investigator Duration: 2021-2022 Henan University Post-Doctoral Startup Research Fund Project: Fe-bimetallic Nanocomposite for Environmental Remediation Role: Principal Investigator Duration: 2020-2021

šŸ’¼ General Skills

    • Ability to Work in a Team
    • Strong Communication Skills
    • Heterogeneous Catalysis
    • Catalyst Characterization

Publications Top Notes šŸ“

  1. PĻT Parameterization of SAFT Equation of State: Developing a New Parameterization Method for Equations of State
    • Authors: A. Pakravesh, F. Zarei, H. Zarei
    • Journal: Fluid Phase Equilibria
    • Year: 2021

 

  1. Prediction of Jouleā€“Thomson Coefficients and Inversion Curves of Natural Gas by Various Equations of State
    • Authors: A. Pakravesh, H. Zarei
    • Journal: Cryogenics
    • Year: 2021

 

  1. High-Pressure Densities of 2-(dimethylamino) Ethanol and 2-(diethylamino) Ethanol: Measurement and Modeling with New Modified Tait and PC-SAFT Equations of State
    • Authors: Z. Mokhtari, A. Pakravesh, H. Zarei
    • Journal: Fluid Phase Equilibria
    • Year: 2023

 

  1. On the Effect of the Hard-Sphere Term on the Statistical Associating Fluid Theory Equation of State
    • Authors: A. Pakravesh, H. Zarei
    • Journal: Physical Chemistry Research
    • Year: 2022

 

  1. Prediction of the Jouleā€“Thomson Inversion Curves for Natural Gas Mixtures by SAFT and PC-SAFT Equations of State
    • Authors: A. Pakravesh, H. Zarei
    • Year: 2016

 

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