Rohit Vekariya | Physical Chemistry | Outstanding Scientist Award

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Assist. Prof. Dr. Rohit Vekariya | Physical Chemistry | Outstanding Scientist Award

CVM University | India

Dr. Rohit L. Vekariya’s research centers on the design, synthesis, and characterization of task-specific ionic liquids and their multidisciplinary applications. His work spans environmental remediation, soft matter and nanotechnology, catalysis, and energy storage systems. He has contributed significantly to water purification, nanoparticle synthesis, micellar self-assembly, and polymer electrolytes. His postdoctoral research advanced ionic-liquid-based catalysts and energy devices, including supercapacitors. Integrating techniques such as SANS, DLS, NMR, and electrochemistry, his research has achieved high international impact and recognition.

Citation Metrics (Scopus)

 2500
 2000
 1000
   500
     0

Citations
2,392

Documents
51

h-index
20

Citations

Documents

h-index

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Featured Publications

Song Ziwei | Catalysis | Research Excellence Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Song Ziwei | Catalysis | Research Excellence Award

Yanshan University | China

Ziwei Song is an Associate Professor of Chemical Engineering at Yanshan University, specializing in catalysis, reaction engineering, and sustainable chemical processes. His research focuses on designing advanced catalytic materials, including bimetallic nanostructures and metal–organic frameworks, for biomass valorization, CO₂ conversion, and electrochemical energy coupling. As an independent principal investigator, he has led national and provincial projects on HMF oxidation, water electrolysis, and environmental remediation. His work integrates kinetic modeling, mechanistic insights, and process optimization, with publications in leading international journals.

Citation Metrics (Scopus)

 300
 200
 100
   20
     0

Citations
268

Documents
11

h-index
9

Citations

Documents

h-index

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Featured Publications

Jinxiao Li | Inorganic Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Dr. Jinxiao Li | Inorganic Chemistry | Best Researcher Award

Dalian University | China

Dr. Jinxiao Li, currently affiliated with the College of Environmental and Chemical Engineering, Dalian University, is an accomplished researcher specializing in biomass-derived energy materials and sustainable energy conversion technologies. He earned his Ph.D. in Power Engineering and Engineering Thermophysics from Shandong University, where his doctoral research focused on the preparation of hierarchical porous carbon from plant-based materials and its application in supercapacitors. Over the past decade, Dr. Li has developed a robust research profile that bridges materials chemistry, renewable energy, and catalysis. Dr. Li’s research centers on biomass conversion, porous carbon fabrication, catalyst design, and hydrogen production. His innovative work on nitrogen-doped hierarchical porous carbons and activation techniques for improved electrochemical performance has significantly contributed to the development of high-efficiency supercapacitors and electrocatalytic systems. By integrating green synthesis methods and advanced characterization techniques such as BET, SEM-EDS, TEM, XRD, XPS, ICP, and FTIR, Dr. Li has advanced understanding of the structural-performance relationships in energy materials. With 21 publications, an impressive 1,291 citations, and an h-index of 14 (Scopus), Dr. Li’s scholarly output reflects both quality and influence in the field of energy materials and environmental chemistry. His work not only addresses fundamental scientific challenges but also offers practical implications for clean energy generation and carbon neutrality initiatives. In recognition of his research excellence, Dr. Li has been honored with the Dalian City Young Talents Award and the Outstanding College Graduates of Shandong Province Award. As an active expert member of the Dalian Energy Conservation Association, he continues to promote sustainable development through research and academic service. Dr. Li’s ongoing projects focus on next-generation biomass-based catalysts and hydrogen energy systems, positioning him as a leading figure in the pursuit of sustainable, high-performance energy materials.

Profiles : Scopus | ORCID

Featured Publications

  • Lian, M., Han, X., Li, J., Song, R., Yang, C., Zhang, J., Zhong, H., & Pan, L. (2025). Hierarchical porous carbon supports: Construction, mechanism, and catalytic performance as efficient microreactors for methanol steam reforming. Inorganic Chemistry Communications, 182(Part 2), 115561.

  • Zhao, Y.-e., Li, J., Xu, A., Liu, Y., Lian, M., Zhang, J., Zhong, H., Yang, C., Song, R., & Pan, L. (2025). Hierarchical porous carbon-supported bimetallic catalyst for enhanced low-temperature steam methane reforming. Catalysis Science & Technology.

  • Lv, S., Lian, S., Li, J., Wang, Y., Wei, J., Zhong, H., & Pan, L. (2025). Mechanochemical construction of stable Cu/MCM-41 with efficient hydrogen production via methanol steam reforming. International Journal of Hydrogen Energy, 164, 150818.

  • Li, J., Han, K., & Li, S. (2018). Porous carbons from Sargassum muticum prepared by H3PO4 and KOH activation for supercapacitors. Journal of Materials Science: Materials in Electronics.

Maria Zednikova | Chemical Engineering | Best Researcher Award

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Dr. Maria Zednikova | Chemical Engineering | Best Researcher Award

Institute of Chemical Process Fundamentals of the CAS | Czech Republic

Profiles

Scopus 
Orcid
Google scholar

Early Academic Pursuits

Dr. Mária Zedníková began her academic journey in chemical engineering with a master’s degree followed by a doctoral degree, both from the Institute of Chemical Technology in Prague. Her strong foundational training laid the groundwork for her subsequent focus in multiphase systems, fluid mechanics, and process engineering. These formative years were marked by deep engagement with core engineering principles and practical laboratory experience, which shaped her research orientation toward hydrodynamics and gas-liquid interactions.

Professional Endeavors

Dr. Zedníková’s professional career is deeply rooted in the Institute of Chemical Process Fundamentals (ICPF), where she has steadily progressed from junior researcher to research scientist and eventually to a leadership role as Head of the Department of Chemical Engineering and Head of the Research Group for Multiphase Reactors. Her trajectory reflects both scientific depth and leadership capacity. She has also taken on academic responsibilities as a teacher at the University of Chemistry and Technology in Prague, expanding her influence to the educational sphere. Notably, her international experience includes collaborative research stays in the United Kingdom and Italy, reflecting her commitment to cross-border scientific exchange and cooperation.

Contributions and Research Focus

Dr. Zedníková’s research is centered on multiphase flow systems with a special emphasis on gas-liquid interactions, bubble dynamics, and mass transfer phenomena. Her work delves into the complex behaviors of bubbles and drops in turbulent environments, investigating how these particles deform, break up, and interact with fluid structures. She has developed theoretical models and experimental setups to study hydrodynamics, drop-particle collisions, and surfactant effects on fluid interfaces. Additionally, her research in stirred tank reactors and gas-lift systems addresses crucial industrial applications in chemical processing, biotechnology, and environmental engineering.

Impact and Influence

Her influence is visible both through her scholarly output and her engagement with the broader scientific community. Dr. Zedníková has authored 30 original research papers, the majority of which appear in peer-reviewed, high-impact journals. She has also contributed a chapter to a scientific monograph and holds a registered utility model. Her active presence at international conferences with over 90 contributions demonstrates her role in advancing and disseminating knowledge in her field. Furthermore, her involvement in national and international research projects as both leader and team member has positioned her as a respected figure in collaborative scientific networks.

Academic Citations and Recognition

With an H-index of 14 and nearly 700 citations most of which are from independent researchers Dr. Zedníková has established a significant academic footprint. Her research is regularly cited by peers, which confirms the value and relevance of her work in the scientific community. The Best Poster Award from the European Federation of Chemical Engineering and her active membership in professional societies and scientific committees further highlight her recognition and contributions on both national and European platforms.

Technical Skills

Dr. Zedníková possesses extensive technical expertise in experimental design, fluid flow diagnostics, multiphase reactor modeling, and mass transfer analysis. Her work includes advanced techniques for measuring bubble deformation, analyzing flow regimes, and modeling surfactant behavior in dynamic fluid systems. Her ability to integrate theoretical modeling with experimental validation distinguishes her technical acumen in the chemical engineering domain.

Teaching Experience

As an educator, Dr. Zedníková has taken a leading role in a wide range of chemical engineering subjects. She has conducted lectures and seminars on fluid mechanics, chemical technologies, process projects, and laboratory courses. Her engagement in mentoring includes the supervision of over 20 master’s, bachelor’s, and internship students. This dedication to teaching complements her research activities and ensures knowledge transfer to the next generation of engineers and scientists.

Legacy and Future Contributions

Dr. Zedníková’s career reflects a consistent drive for scientific innovation, education, and leadership. Her multidisciplinary collaborations, international exposure, and applied research make her a role model in the engineering sciences. Looking ahead, her ongoing research on bubble dynamics, reactor hydrodynamics, and surfactant behavior is expected to contribute significantly to chemical process optimization and sustainability. Her involvement in international committees and editorial boards also sets the stage for continued influence in shaping research agendas and policy in chemical engineering.

Notable Publications

  • Dynamic regimes in granular mixing: Effect of sliding friction and stirrer rotational frequency
    Authors: Martin Kozakovic, David Kramolis, Maria Zednikova, Stanislav Parez, Jaromir Havlica
    Journal: Powder Technology
    Year: 2025

  • Size distribution of daughter bubbles or drops resulting from binary breakup due to random initial deformation conditions
    Authors: Maria Zednikova, Petr Stanovsky, Sandra Orvalho
    Journal: Separation and Purification Technology
    Year: 2025

  • Gas phase behaviour in environment of fermentation processes
    Authors: Adrián Žák, Lukáš Valenz, Tomáš Moucha, Maria Zednikova
    Journal: Chemical Engineering Research and Design
    Year: 2025

  • Viscosity influence on hydrodynamics behaviour in a stirred tank reactor
    Authors: Adrián Žák, Mária Zedníková, Tomáš Moucha
    Journal: Chemical Engineering Research and Design
    Year: 2025

  • Surfactant effect on bubble deformation and breakup after interaction with vortex structure
    Authors: Maria Zednikova, Tereza Semlerová, Sandra Orvalho, Jaromir Havlica, Jaroslav Tihon
    Journal: Chemical Engineering Science
    Year: 2025

Conclusion

Dr. Mária Zedníková is a highly accomplished chemical engineering researcher with deep expertise in multiphase flow systems and hydrodynamics. Her balanced portfolio of research, teaching, leadership, and international collaboration reflects a dynamic and impactful career. Her academic and professional journey illustrates a strong commitment to advancing both fundamental science and its practical applications. She stands out as a leading figure in her field, with a legacy that is poised to grow in the coming years.

Alwyn Henriques | Reaction Mechanisms | Best Researcher Award

Published on by Analytical Chemistry

Mr. Alwyn Henriques | Reaction Mechanisms | Best Researcher Award

University of the West Indies, Jamaica

👨‍🎓Profiles

🎓 Early Academic Pursuits

Alwyn Henriques began his academic journey at Wolmer’s Boys’ School (2009–2013), where he excelled in a broad range of CSEC subjects including English Language, Mathematics, Biology, Chemistry, Physics, Geography, Information Technology, and Caribbean History. He continued his studies with CAPE Unit 1 courses in Chemistry, Biology, and Physics. His academic path advanced further at the University of the West Indies (2014–2021), where he completed undergraduate studies in Chemistry, reaching Levels 2 and 3, which provided him with a solid foundation in analytical and applied chemistry.

💼 Professional Endeavors

Alwyn has engaged in diverse professional roles that reflect a combination of scientific, technical, and customer service expertise. At the National Health Fund (NHF), he served as a Pharmacy Assistant in June 2018 and 2019, where he introduced and advised on the use of digital solutions like a quick prescription mobile application and self-serve kiosk services. He also assisted in medication packing, gaining practical insight into pharmaceutical distribution. In September 2017, he worked as a Chemistry Lab Technician at the Convent of Mercy (Alpha), where he prepared laboratory apparatus and ensured safety protocols for chemical experiments. His earlier experience at RADA in August 2017 involved organizing agricultural seminar documents as a file clerk.

🔬 Contributions and Research Focus

Alwyn’s most significant research contributions came during his internship at the Scientific Research Council (SRC) in July 2021. There, he explored the chemical transformation and pharmacological behavior of cannabis-derived compounds, focusing on the conversion of cannabidiol (CBD) to tetrahydrocannabinol (THC), THC spoilage to cannabinol (CBN), and the redox-based metabolism of these compounds in the body. His research also delved into wastewater chemical analysis, pharmaceutical development processes, cacao bean applications in food and medicine, and cannabis-derived renewable materials—demonstrating a strong orientation toward sustainable and innovative chemistry.

🌍 Impact and Influence

Alwyn’s multidisciplinary career showcases a commitment to socially impactful science. His promotion of digital health services at NHF and exploration of plant-based compounds for pharmaceuticals mark him as a forward-thinking individual attuned to modern healthcare, sustainability, and biotechnology trends. He contributes to Jamaica’s evolving landscape of scientific development, especially in areas of public health innovation and natural product chemistry.

🧠 Technical Skills

Alwyn’s technical skill set includes laboratory preparation of chemicals and apparatus, cannabinoid conversion and pharmacokinetics, wastewater analysis, pharmaceutical formulation, data organization, and customer support systems. His adaptability in both scientific and service-oriented environments illustrates a strong balance of precision, communication, and innovation.

👨‍🏫 Teaching Experience

Although he has not held a formal teaching post, Alwyn’s role as a lab technician involved active support of educational activities by preparing experiments and maintaining a safe and functional learning environment. This experience has equipped him with the foundational skills for future roles in academic support or technical instruction.

📚 Academic Cites and References

While no formal publications have been cited, Alwyn’s research during his SRC internship likely contributed to internal reports or scientific reviews. His professional references include Norman Biggs, a Justice of the Peace, Adriel Albert-James, a Chemistry Lecturer and Researcher, and Nickeisha Stephenson, a customer service and loan advisor, all of whom can attest to his character and capability across various fields.

🌱 Legacy and Future Contributions

Alwyn Henriques is a promising scientific professional with a unique blend of academic, research, and service-oriented experience. His passion for natural product chemistry, commitment to sustainable innovation, and fluency in digital healthcare solutions set the stage for impactful contributions in the future. As he continues to grow, he is well-positioned to play a pivotal role in the advancement of biomedical science, renewable resources, and public health technologies.

📖Notable Publication

Cannabinoid spoilage, metabolism and cannabidiol (CBD) conversion to Tetrahydrocannabinol (THC) mechanisms with energetic parameters

Authors:
Alwyn Henriques

Journal:
Journal of Cannabis Research

Year:
2025

Esmaeil Sheibani | Organic Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Assist Prof Dr. Esmaeil Sheibani | Organic Chemistry | Best Researcher Award

University of Isfahan, Iran

👨‍🎓Profiles

👨‍🎓 Early Academic Pursuits

Dr. Esmaeil Sheibani began his academic journey at Tabriz University, where he earned his B.S. in Chemistry in 2002. He continued his studies at Tarbiat Modares University, completing his M.S. in Organic Chemistry in 2004. He then pursued a Ph.D. in Organic Chemistry at the University of Tehran, which he completed in 2009. During this period, he broadened his academic horizons through a PhD exchange fellowship at Lund University in Sweden, setting the foundation for his future research collaborations.

🧑‍🔬 Professional Endeavors

Following his doctoral studies, He engaged in postdoctoral research at Lund University, where he worked under Prof. Kenneth Wärnmark and received a Wallenberg Research Fellowship from 2009 to 2011. He then served as a research associate with Prof. Licheng Sun at KTH Royal Institute of Technology, supported by a Swedish Energy Agency Research Fellowship from 2012 to 2014. In addition to his role as an Assistant Professor of Organic Chemistry at the University of Isfahan, he has undertaken guest professorships at prestigious institutions, including Nanjing University of Science and Technology and Lund University.

🌟 Contributions and Research Focus

His research primarily focuses on organic semiconductor materials for solar cell applications. His collaboration with several international research groups has led to numerous high-impact publications in journals such as Chemical Engineering Journal, Advanced Materials, and ACS Energy Letters. He has authored five books and contributed to multiple book chapters, demonstrating his commitment to advancing knowledge in the field.

📊 Impact and Influence

With a citation index of 1226 and 28 published papers, Dr. Sheibani has made significant contributions to the field of organic chemistry and renewable energy. His research has not only enhanced the understanding of organic semiconductors but has also influenced the development of large-scale solar cell technologies, highlighting his role in bridging academic research and practical applications.

📈 Academic Cites

He has achieved a citation index of 1226, reflecting the broad impact of his work within the scientific community. His publications in high-impact journals underscore his reputation as a leading researcher in organic materials and their applications in renewable energy technologies.

🛠️ Technical Skills

He possesses a diverse range of technical skills, including multi-step synthesis, polymer and material chemistry, and spectroscopy. These competencies enable him to conduct innovative research and contribute to the development of new materials for solar energy applications.

👩‍🏫 Teaching Experience

In addition to his research, He is dedicated to education, teaching various undergraduate and graduate courses. His curriculum includes Organic Chemistry (I-III), Supramolecular Chemistry, Advanced Organic Chemistry, and courses focused on Renewable Energy and Materials. His approach emphasizes the integration of theoretical knowledge with practical applications.

🌱 Legacy and Future Contributions

His ongoing collaborations with prestigious universities in Sweden, China, and Switzerland position him to continue influencing the field of organic chemistry and renewable energy. His commitment to large-scale device fabrication and societal benefit underscores his vision for a sustainable future through innovative research and education.

🌍 International Teamwork

He has successfully collaborated with various high-quality research groups in China and Sweden, fostering an environment of international teamwork. This extensive network enhances his research capabilities and broadens the impact of his work, establishing him as a key contributor to global advancements in organic chemistry and renewable energy.

📖Notable Publications