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

Yang Liu | Catalysis | Best Researcher Award

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Mr. Yang Liu | Catalysis | Best Researcher Award

Associate Professor at Henan Normal University, China

Yang Liu is an Associate Professor at Henan Normal University, focusing on electrochemical energy materials. He has published 15 research papers in prestigious journals such as Advanced Materials, Materials Today, and Nano Energy. Liu’s work is concentrated on developing highly efficient catalysts for ammonia synthesis and nitrate reduction, alongside advancing renewable energy technologies. His research collaborations and impactful contributions to electrochemical catalysis have established him as a prominent researcher in the field. Liu continues to explore cutting-edge materials for energy conversion and storage.

 

profile

Scopus

šŸŽ“ Education:

2011ā€”2015: Bachelor’s degree in Applied Physics from Xinyang Normal University. 2015ā€”2017: Master’s degree in Condensed Matter Physics from Guangxi University, under the supervision of Prof. Pei Kang Shen. 2017ā€”2020: Ph.D. in Chemical Engineering from Guangxi University, also under Prof. Pei Kang Shen’s guidance. During his academic journey, Liu honed his expertise in electrochemical materials and catalysis, gaining comprehensive knowledge in both theoretical and practical aspects of energy conversion technologies.

šŸ¢ Experience:

Yang Liu is currently an Associate Professor at Henan Normal University, specializing in electrochemical energy materials. His research focuses on the design of efficient catalysts for processes like ammonia synthesis and nitrate reduction. He has co-authored 15 high-impact journal articles, establishing himself as a significant contributor to advancements in renewable energy and electrochemical catalysis. Liu’s work integrates experimental and theoretical approaches, targeting energy conversion and storage applications. His academic experience is marked by interdisciplinary collaborations with experts in physics, chemistry, and engineering.

šŸ† Awards and Honors:

Although specific awards are not mentioned in the provided details, Yang Liu’s numerous publications in high-impact journals such as Advanced Materials and Nano Energy signify his recognition within the academic community. His equal contributions to collaborative works and extensive research on electrochemical energy materials suggest that Liu is held in high esteem by peers. His role as a co-author in groundbreaking studies in catalysis and renewable energy likely reflects his standing as a respected scientist in the field of material science.

šŸ” Research Focus:

Yang Liu’s research centers on electrochemical energy materials, particularly catalysts for nitrate reduction and ammonia synthesis. He works on advancing electrocatalytic processes, focusing on improving reaction efficiency and sustainability. His recent studies include exploring metallic glasses, asymmetric 3D electronic structures, and single-atom catalysts. Liu is also involved in the development of self-powered electrocatalytic systems using renewable energy sources such as wind energy. His work aims to solve energy-related challenges by enhancing the performance of materials used in energy conversion and storage technologies.

Publications Top Notes:

 

  1. Single-, double-, and triple-atom catalysts on PC6 for nitrate reduction to ammonia: A computational screening
    • Authors: Huang, J., Hu, S., Liu, M., Liu, Y., Gao, S.
    • Journal: Electrochimica Acta, 2024, Volume 504, Article 144915

 

  1. Sodium Difluoro(oxalato)borate Additive-Induced Robust SEI and CEI Layers Enable Dendrite-Free and Long-Cycling Sodium-Ion Batteries
    • Authors: Liu, X., Zhao, J., Dong, H., Zhang, C., Chou, S.
    • Journal: Advanced Functional Materials, 2024, 34(37), Article 2402310

 

  1. Nonflammable Succinonitrile-Based Deep Eutectic Electrolyte for Intrinsically Safe High-Voltage Sodium-Ion Batteries
    • Authors: Chen, J., Yang, Z., Xu, X., Li, L., Chou, S.-L.
    • Journal: Advanced Materials, 2024, 36(28), Article 2400169

 

  1. Ultrafine Ru nanoparticles anchored on N-doped mesoporous hollow carbon spheres as a highly efficient bifunctional catalyst for Liā€“CO2 batteries
    • Authors: Zhao, J., Xu, X., Chen, J., Fan, Y., Qiao, Y.
    • Journal: Journal of Power Sources, 2024, 607, Article 234577

 

  1. A 30-year overview of sodium-ion batteries
    • Authors: Gao, Y., Zhang, H., Peng, J., Qiao, Y., Chou, S.-L.
    • Journal: Carbon Energy, 2024, 6(6), Article e464

 

  1. Cross-linked K0.5MnO2 nanoflower composites for high rate and low overpotential Li-CO2 batteries
    • Authors: Wu, J., Chen, J., Chen, X., Chou, S., Qiao, Y.
    • Journal: Chemical Science, 2024, 15(25), pp. 9591ā€“9598

 

  1. The guarantee of large-scale energy storage: Non-flammable organic liquid electrolytes for high-safety sodium ion batteries
    • Authors: Chang, X., Yang, Z., Liu, Y., Chou, S., Qiao, Y.
    • Journal: Energy Storage Materials, 2024, Volume 69, Article 103407

 

  1. Sustainable, super-stable thermochromic material by coupling hydroxypropyl cellulose and sodium carboxymethyl cellulose
    • Authors: Pan, P., Liu, Y., Zhu, Z., Chen, L., Li, J.
    • Journal: International Journal of Biological Macromolecules, 2024, 268, Article 131945

 

Conclusion

Yang Liuā€™s outstanding research in electrochemical energy materials and his growing influence in the field make him a suitable candidate for the Best Researcher Award. His prolific publication record, collaborative research with established scientists, and significant contributions to energy storage and catalysis position him as an emerging leader. To strengthen his profile further, increasing first-author contributions and expanding international collaborations would provide additional recognition and impact.

Pablo Jose Baricelli | Biphasic Homogeneous Catalysis

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Pablo Jose Baricelli –Ā  Biphasic Homogeneous Catalysis

šŸ‘Øā€šŸ« Prof Dr Pablo Jose Baricelli an Dr atUniversidad de Carabobo, stands as a distinguished Academician/Research Scholar in the domain of Chemistry. Holding aĀ  Ph.D on Cellular and Molecular Biology, Dep. of Biology, Biphasic Homogeneous Catalysis .their professional journey exemplifies dedication and expertise.

šŸŽ“Education:

He pursued his undergraduate studies at Los Andes University Science Faculty in MĆ©rida, MĆ©rida state, where he earned a degree in Chemistry as a graduate from 1969 to 1974. Building upon this foundation, he continued his academic journey by pursuing postgraduate studies at the University of Reading in England from 1979 to 1983. During this period, he dedicated his efforts to advanced research, culminating in the successful completion of his Ph.D. in Chemistry. This academic trajectory reflects his commitment to excellence in the field of chemistry, spanning both his formative years in MĆ©rida and his research-intensive doctoral studies in the United Kingdom.

šŸŒ Professional Profiles:

Honors, Recognitions and Awards:

Accredited by the Steering Committee of the Researcher Promotion System, as a Program Member in the category of “Researcher Level I . CONABA Award, Level II CONADES Award, Level I Decoration of the Carabobo University Teachers Association (APUC), in its XL Anniversary, for the academic and research trajectory at the University of Carabobo. Alejo Zuloaga award in his only class at the University of Carabobo as a merit to his outstanding career as a teacher-researcher of this alma mater. Accredited by the Steering Committee of the Researcher Promotion System, as a Program Member in the “Researcher Level II” Category. Recognition of the Academic Vice-Rector of the University of Carabobo, as a Program Member in the category of “Researcher Level III”.Recognition of the Deanship of the Faculty of Engineering of the University of Carabobo, as a Program Member in the category of “Researcher Level III”. Recognition of the Venezuelan Association for the Advancement of Science (AsoVac) as a Program Member in the category of “Researcher Level IVā€ Accredited by the Steering Committee of the Researcher Promotion System, as a Program Member in the “Researcher Level IV” Category APVG Award for Academic Excellency Accredited by the Steering Committee of the Researcher Promotion System, as a Program Member in the “Researcher Level IV” Category.

Scientific Societies Membership:

Venezuelan Association for the Advancement of Science (ASOVAC). Society for Free Radical Research (SFRR) Brunnel University. Inglaterra. Venezuelan Catalysis Society (SVC). Ibero-American Science and Technology Program for development (CYTED).Ā  Environment Protection Catalysis Network. Ibero-American Science and Technology Program for development (CYTED). Homogeneous Catalysis Network.Association for Research of the University of Carabobo (APLIUC). Innovation
and Research Stimulus Program (PEII).

Referee for Scientific Journals:

Applied Catalysis (ISSN. 0926-860X), Applied Organometallic Chemistry (ISSN. 1099-0739), Journal of Organometallic Chemistry (ISSN. 0022-328X), Avances en QuĆ­ mica (ISSN.1856-5301). Catalysis Letters (ISSN. 1572-879X), CIENCIA (ISSN. 1315-2076), FRAUTE; Revista de FACYT, UC (ISSN. 1698-7418), International Journal of Chemical Kinetics (ISSN. 1097-4601), Journal of Molecular Catalysis (ISSN. 1381-1169), Revista de la Facultad de IngenierĆ­ a, UC (ISSN. 1316-6832), Catalysis Today (ISSN. 0920-5861)

Publications:
  • P. Baricelli, R. Ballesteros, G. Marquina y S. Villalba. “Catalytic dehydrogenation of domestic gasā€. XXVI ASOVAC Annual Convention. Puerto La Cruz Venezuela. 1976.

 

  • Ā P. Baricelli, F. Lo pez. “Surface Characterization and Catalytic Activity of Cu2 + Ions Chemically Anchored to the Surface of Modified Silica Gelā€. XXIX ASOVAC Annual Convention, Barquisimeto, Venezuela. 1979

 

  • P. Baricelli, Mitchell P.C.H. ā€œElectron, Transfer Reactions of a Molibdenum Dithiolato Complex”. Some Recents Deve lopments in the Chemistry of Chromiun, Molybdenum and Tungsten”. Brightom, England. 1983

 

  • P. Baricelli, C. Ferna ndez, D. OsĆ­ o, F. Lo pez, O. Leal. ā€œSurface Characterization and Catalytic Activity of Molybdenum Ions Chemically Anchored to the Surface of Modified Silica Gel”. XXXVI ASOVAC Annual Convention. Valencia, Venezuela. 1986.

 

  • P. Baricelli, D. Bidirinis, D. Leal, E. Lujano, F. Lo pez. “Synthesis and Characterization of Ions and Complexes Mo (VI) and o (V) Chemically Anchored to the Surface of the Modified Silica Gel”. X Catalysis National Meeting. Los Teques ā€“ Venezuela. 1989

 

  • P. Baricelli, L. De Sousa, O. Leal, F.Lo pez. “Preparation of an Adsorbent for Chrome and Aluminum from Silica Gel “. XL ASOVAC Annual Convention, Cumana , Venezuela. 1990

 

  • P. Baricelli, A. Pardey, L. Go mez. “Oxidation of Olefins by Nitro-Iridium complexes”. XLI ASOVAC Annual Convention. Maracaibo ā€“ Venezuela. 1991

 

  • P. Baricelli, A. BolĆ­ var, D. Pa ez, A. Andriollo, M. DomĆ­ nguez. “Complejos Organometa licos Hidrosolubles en Cata lisis de Olefinasā€. XII Encuentro Nacional de Cata lisis. Valencia, Venezuela. 1993

 

  • P. Baricelli, L. Go mez, O. Leal, L. Quijije, A. Pardey. “Oxidation of Olefins by NitroTransition Metal Complexes”. XII Catalysis National Meeting. Valencia, Venezuela. 1993.

 

  • P. Baricelli, F. Lo pez, D.Pa ez, A. Andriollo, M. DomĆ­ nguez y A. BolĆ­ var. ā€œWaterSoluble Organometallic Complexes of Tungsten and Rutheniun. Synthesis, Characterization and Preliminary Studies in the hidrogenation of Olefins in a Biphasic System”. LatinAmerican Inorganic Chemistry Meeting. Santiago de Compostela, Espan a. 1993

 

  • P. Baricelli, M. Meza, F. Lo pez, A. Pardey, O. Leal, M. Mediavilla. “Homogeneous Catalysis of the Water Gas Displacement Reaction by Iridium Complex (I) in Aqueous Solution of Substituted Amines”. XLII ASOVAC Annual Convention. Me rida, Venezuela. 1993

 

  • M. Mediavilla, J. Contreras, D. Pineda, M. Meza, P. Baricelli, F. Lo pez y A. Pardey, “Homogeneous Catalysis of Water Gas Displacement Reaction by Copper Complex”. XIV Iberoamerican Catalysis Convention Concepcio n, Chile. 1994