Ali Zalov | Analytical Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Ali Zalov | Analytical Chemistry | Best Researcher Award

Azerbaijan State Pedagogical University | Azerbaijan

Dr. Prof. Ali Zalov is the Head of the Department of Analytical and Organic Chemistry at Azerbaijan State Pedagogical University, where he plays a key role in advancing research and education in analytical chemistry. His primary research interests focus on the synthesis, structural analysis, and catalytic properties of transition metal complexes, particularly those involving nickel, cobalt, and phosphorus. Through his work, Dr. Zalov explores the development of innovative coordination compounds with potential applications in catalysis and chemical processing. He has authored numerous scientific publications at both national and international levels and has also contributed to academic books, reflecting his broad engagement with the scholarly community. Among his recent works are studies on nickel-based complexes and their practical applications in catalysis, published in reputable journals such as Chemical Review and Letters and the Russian Journal of General Chemistry.  In addition to his scholarly contributions, Dr. Zalov is actively involved in mentoring students and collaborating with fellow researchers. With a growing network of co-authors and an established presence in the academic community, he continues to shape the development of analytical chemistry both in Azerbaijan and internationally.

Profiles : Scopus | Google scholar

Featured Publications

  • “Synthesis and investigation of the properties of the nickel, cobalt and phosphorus catalysts.”

  • “Complexes of Nickel(II) with [(Prop-2-en(yn)-1-yl)oxy]ethanimidothioate and Their Applications.”

  • “Tungsten(VI) Complexes with 2-Hydroxy-5-chlorothiophenol in the Presence of Aminophenols and Their Application.”

  • “Study of mixed ligand complexes of copper(II) with dimercaptophenols and hydrophobic amines and their application to the analysis of natural objects.”

  • “Correlations of analytical properties of mercury complexes with 2-hydroxythiophenol and pyridine.”

 

Maria Zednikova | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

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.

David Semeril | Supramolecular Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Dr. David Semeril | Supramolecular Chemistry | Best Researcher Award

CNRS | France

Profiles

Orcid

Early Academic Pursuits

Dr. David Sémeril began his academic journey with a doctoral degree in chemistry from the University of Rennes, where he specialized in ruthenium-based catalysis involving functionalized diene and enyne substrates. His PhD research laid a strong foundation in organometallic chemistry and catalysis, demonstrating his early commitment to innovative reaction mechanisms and catalyst development. This academic training was further enriched by post-doctoral experiences in Italy, where he engaged in polymer chemistry and organometallic complex synthesis.

Professional Endeavors

Dr. Sémeril serves as a Chargé de Recherche (Research Scientist) at CNRS and holds a leadership position in the Organometallic Synthesis and Catalysis team within a recognized CNRS unit. His responsibilities span advanced research in homogeneous catalysis, academic mentorship, and project coordination at national and international levels. He has led multiple major research grants, including nationally funded ANR projects and internationally supported collaborations through TUBITAK and IFCPAR, reflecting a consistent trajectory of scientific leadership and innovation.

Contributions and Research Focus

His research spans a wide spectrum of advanced chemistry, with a strong focus on homogeneous catalysis using transition metal complexes. Core areas include carbon–carbon cross-coupling reactions, hydrogenation, hydroformylation, and olefin oligomerization/polymerization. Dr. Sémeril’s work often features the design and utilization of metallo-cavitands, modified calix[4]arene and resorcin[4]arene scaffolds, and constrained ligands such as phosphines and N-heterocyclic carbenes. These systems are investigated for their mechanistic behavior and functional utility in catalysis under nanoconfined conditions. His contributions also explore the interplay between molecular modeling, capsule-based chemistry, and reaction dynamics, pushing the boundaries of supramolecular catalysis.

Impact and Influence

With over a hundred peer-reviewed publications and a notable h-index, Dr. Sémeril has established a strong scientific footprint. His research is widely cited, underscoring the relevance and innovation of his work in catalysis and metallo-supramolecular chemistry. He has delivered numerous invited talks at international conferences and has collaborated with leading chemists and research groups across Europe, Asia, and North Africa. His role as a visiting professor in institutions abroad further emphasizes his global recognition and influence in the chemical sciences.

Academic Citations

Dr. Sémeril’s work has attracted substantial academic interest, accumulating over 3000 citations with a citation profile that reflects sustained impact across interdisciplinary research in organometallic chemistry, catalysis, and supramolecular science. His research outputs contribute both to fundamental understanding and to the development of practical applications in modern synthetic chemistry.

Technical Skills

He possesses a high level of technical expertise in the synthesis and characterization of metal complexes, ligand design, polymer chemistry, and mechanistic catalysis studies. Proficiency in infrared spectroscopy, molecular modeling, and the manipulation of air- and moisture-sensitive compounds forms a cornerstone of his laboratory work. His interdisciplinary approach integrates experimental chemistry with computational insight, which enhances the mechanistic depth of his research findings.

Teaching Experience

Dr. Sémeril is actively involved in the education and training of undergraduate and postgraduate students. He has led practical courses in both inorganic and organic chemistry, as well as specialized sessions in spectroscopy and lifelong learning modules. His mentoring portfolio includes the supervision of multiple PhD students, postdoctoral researchers, and numerous master-level students, demonstrating a strong commitment to academic development.

International and National Collaborations

Dr. Sémeril has cultivated active research collaborations with leading universities and institutions across Turkey, India, Japan, Tunisia, and France. These partnerships have yielded productive joint publications and shared funding initiatives, enhancing cross-cultural and interdisciplinary scientific exchange. His national network includes prominent French universities and CNRS institutes, contributing to both fundamental research and applied science.

Legacy and Future Contributions

Through a blend of pioneering research, mentorship, and collaboration, Dr. Sémeril has established a lasting legacy in the field of organometallic chemistry. His ongoing work in supramolecular catalysis and capsule-assisted reactivity is poised to generate further breakthroughs in sustainable and efficient synthetic methodologies. He continues to inspire emerging researchers and influence the direction of chemical sciences in academia and beyond.

Notable Publications

Homo- versus hetero- [2+2+2] rhodium-catalyzed cycloaddition: effect of a self-assembled capsule on the catalytic outcome
Authors: Maxime Steinmetz, David Sémeril
Journal: Molecules
Year: 2025

Silver-NHC complexes against a clinical isolate of Acanthamoeba castellanii: time- and dose-dependent effects
Authors: Zübeyda Akın-Polat, Neslihan Şahin*, Shaima Hkiri, Bui Minh Thu Ly, İsmail Özdemir, David Sémeril
Journal: Inorganics
Year: 2025

Molecular modeling is key to understanding supramolecular resorcinarenyl capsules, inclusion complex formation and organic reactions in nanoconfined space
Authors: Maxime Steinmetz, David Sémeril
Journal: Molecules
Year: 2025

Effect of the positioning of metal centers on a cavitand in the ruthenium-catalyzed N-alkylation of amines
Authors: Neslihan Şahin, Christophe Gourlaouen, David Sémeril
Journal: Molecules
Year: 2025

Hydrogenation versus hydrosilylation: the substantial impact of a palladium capsule on the catalytic outcome
Authors: Maxime Steinmetz, Rachel Schurhammer, Christophe Gourlaouen, David Sémeril
Journal: Molecules
Year: 2024

Conclusion

Dr. David Sémeril exemplifies excellence in scientific research, mentorship, and academic leadership. His multidisciplinary expertise, international collaborations, and strong publication record mark him as a key contributor to modern organometallic and catalytic chemistry. His ongoing efforts are not only advancing scientific understanding but also shaping the future of sustainable chemical processes and innovation.

 

Gayathri EM | Environmental Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Ms. Gayathri EM | Environmental Chemistry | Best Researcher Award

National Centre for Polar and Ocean Research | India

Profiles

Scopus

Early Academic Pursuits

Gayathri E. M. began her academic journey with a Bachelor’s degree in Physics, which laid the foundation for her strong analytical and scientific reasoning skills. Her transition into the field of Meteorology at the postgraduate level demonstrates a clear shift towards understanding atmospheric and climate processes. During this period, she showed early promise through hands-on research, such as reconstructing glacier mass balance in the Western Himalayas using observational temperature and precipitation data. Her academic choices reflect a strong inclination toward environmental sciences, particularly the intricate interactions between atmospheric conditions and cryospheric systems.

Professional Endeavors

Gayathri is currently positioned as a Senior Research Fellow in Antarctic Cryosphere Studies at a national research institute under the Ministry of Earth Sciences in India. She is simultaneously pursuing her doctoral research, focused on the influence of climate variability on ice sheet temperature and trace element distribution in coastal East Antarctica. Her commitment to polar research is evidenced by active field and laboratory-based investigations, collaborative scientific projects, and engagement in international research forums. Her experience also includes internships at leading Indian research institutes, where she conducted isotope studies using advanced analytical instruments, further broadening her technical scope.

Contributions and Research Focus

Her research centers on the interactions between the cryosphere and atmosphere, with a particular emphasis on surface energy balance, atmospheric forcing, and trace element chemistry in ice cores. A notable part of her research has involved investigating anthropogenic influences, such as the rise in copper emissions recorded in Antarctic ice since the mid-1980s. She has also explored anomalous surface melting events in East Antarctica, tying them to large-scale climatic and atmospheric drivers. These studies not only provide insights into past and present climate variability but also contribute to the global understanding of anthropogenic impact in remote polar regions.

Impact and Influence

Gayathri’s findings have significant implications for climate science, particularly in relation to how trace elements and warming events affect ice sheet stability. Her work adds to the growing body of evidence concerning the sensitivity of Antarctic systems to global environmental change. By publishing in peer-reviewed international journals and presenting at high-level conferences, she has ensured that her research reaches both academic and policy-making audiences. Her contributions are highly relevant to contemporary discussions on climate resilience, environmental monitoring, and sustainable development.

Academic Citations

She has authored and co-authored scientific articles that address both the environmental chemistry of ice cores and surface melting processes in East Antarctica. These publications, featured in reputable international journals such as Polar Science and Environmental Monitoring and Assessment, offer valuable datasets and interpretations that are likely to be cited in future studies on polar climate change, paleoclimatology, and anthropogenic pollution markers in the cryosphere.

Technical Skills

Gayathri possesses a well-rounded technical skill set that encompasses both laboratory-based and computational approaches. She is proficient in using High-Resolution Inductively Coupled Plasma Mass Spectrometry (HR-ICP-MS) for ultra-trace elemental analysis. Her clean lab expertise ensures high-quality, contamination-free sample preparation and analysis. In addition, she is skilled in scientific data processing using Python, FERRET, and CDO, as well as in running atmospheric models like HYSPLIT and a 1D heat flow model for ground heat flux estimation. Her experience in managing observational datasets and reanalysis models reflects her versatility as a climate researcher.

Teaching Experience

While direct teaching responsibilities are not outlined, Gayathri’s involvement in conference presentations, collaborative research environments, and scientific writing suggests she possesses the communication and mentorship skills essential for academic teaching and scientific outreach. Her ability to articulate complex scientific phenomena to diverse audiences, including presenting her research at national and international platforms, indicates potential for a future role in teaching or mentoring early-career researchers.

Legacy and Future Contributions

Gayathri E. M. is poised to leave a lasting mark in the fields of polar science and environmental monitoring. Her ongoing doctoral research has already addressed key gaps in understanding ice sheet dynamics and atmospheric-cryospheric interactions. With continued interdisciplinary collaboration and expanded international engagement, she is well-positioned to influence future research directions in climate science, especially in the context of polar feedback mechanisms and anthropogenic trace element deposition. Her work lays the foundation for developing comprehensive environmental monitoring frameworks and contributes to long-term climate archives through ice core research.

Notable Publications

Drivers of anomalous surface melting over Ingrid Christensen Coast, East Antarctica
Authors: Gayathri, E. M. and Laluraj, C. M.
Journal: Polar Science
Year: 2024

East Antarctic ice core record reveals a dramatic rise in anthropogenic copper emissions since ~1985
Authors: Gayathri, E. M., Laluraj, C. M., Rahaman, W., Redkar, B. L., and Thamban, M.
Journal: Environmental Monitoring and Assessment
Year: 2025

Conclusion

Gayathri E. M. exemplifies the qualities of a dedicated and forward-thinking environmental researcher. With her strong academic foundation, advanced analytical skills, and impactful contributions to polar science, she has already made meaningful strides in understanding Earth’s changing climate. As she continues to build on her research portfolio, Gayathri stands out as a promising scientist whose work will undoubtedly contribute to global climate resilience and policy-relevant environmental research.

Adrian De La Fuente Ballesteros | Analytical Chemistry | Excellence in Innovation Award

Published on by Analytical Chemistry

Dr. Adrian De La Fuente Ballesteros | Analytical Chemistry | Excellence in Innovation Award

University of Valladolid | Spain

Profiles

Scopus
Orcid
Google scholar

Early Academic Pursuits

Dr. Adrián de la Fuente Ballesteros began his academic journey with a Bachelor’s degree in Chemistry, followed by multiple Master’s programs in Advanced Techniques in Chemistry, Teaching, Scientific Communication, and Artificial Intelligence and Innovation. This diverse academic foundation reflects a strong interdisciplinary approach, combining core scientific training with skills in pedagogy, innovation, and emerging technologies. His academic path demonstrates not only a deep commitment to scientific excellence but also a forward-looking mindset that embraces communication and digital transformation.

Professional Endeavors

Dr. Adrián currently holds the position of Postdoctoral Fellow in Analytical Chemistry at the University of Valladolid. His professional trajectory includes leadership in various competitive research projects, authorship of high-impact scientific publications, and the development of proprietary innovations such as a patented food formulation. As a Principal Investigator, he has led funded research initiatives involving novel food development, environmental monitoring, and sustainable chemical analysis. Beyond the laboratory, he plays key roles in scientific societies, organizing committees, and international collaborations contributing actively to the European and global research ecosystem.

Contributions and Research Focus

Dr. Adrián’s core research lies in the development and validation of advanced analytical methodologies, particularly for detecting analytes in food and environmental matrices. His expertise spans bioactive compounds, pesticide residues, alkaloids, and volatile organic compounds, using sophisticated chromatographic techniques like LC and GC-MS. Notably, he is a prominent advocate of White Analytical Chemistry a framework that integrates environmental sustainability into method development. He has pioneered tools such as the Violet Innovation Grade Index (VIGI) and GLANCE, a graphical evaluation tool, both designed to simplify and standardize analytical method assessment. These tools enhance the practicality, greenness, and innovation of analytical practices.

Impact and Influence

Dr. Adrián’s influence extends well beyond academia. He has presented at over 50 scientific conferences across Europe and North America, contributing oral communications, posters, and keynote interventions. His work has impacted areas ranging from food safety and contaminant tracking to educational innovation and science communication. His outreach efforts have involved direct engagement with the public, including hands-on workshops, high school science programs, and family-oriented events. Furthermore, he has been recognized with numerous awards for scientific excellence, innovation, and communication, underlining his multifaceted impact on research, education, and society.

Academic Citations and Editorial Involvement

Dr. Adrián has contributed significantly to scientific literature through peer-reviewed publications in high-impact journals. He serves as a peer reviewer for over 30 articles in journals covering food chemistry, analytical methods, and environmental science. In addition to his reviewing responsibilities, he is a member of editorial boards for respected publications, including Food & Nutrition Journal, CMJ Food Chemistry, and Environmental Science and Pollution Research. His presence in these editorial roles not only validates his expertise but also positions him as a gatekeeper for scientific quality and innovation in his field.

Technical Skills and Methodologies

Technically, Dr. Adrián is proficient in a wide range of analytical tools and techniques. His skillset includes liquid chromatography (LC), gas chromatography (GC), mass spectrometry (MS), microextraction methods, and sustainable sample preparation approaches. He is particularly specialized in developing analytical methods aligned with Green and White Analytical Chemistry principles. Additionally, he leverages digital technologies and artificial intelligence tools to enhance method evaluation, showcasing a progressive integration of traditional and modern scientific methodologies.

Teaching and Mentorship Experience

In the realm of academia, Dr. Adrián has contributed significantly to teaching and mentorship. He has delivered over 100 hours of lectures and laboratory sessions in undergraduate and graduate courses related to Analytical Chemistry and Science Education. He has supervised more than 15 Bachelor’s and Master’s theses, fostering the growth of the next generation of chemists. His involvement in teaching innovation projects focused on mobile learning, flipped classrooms, power skills, and AI-based education demonstrates a strong dedication to enhancing pedagogical practices and academic engagement.

Scientific Outreach and Communication

A notable aspect of Adrián’s profile is his passion for science communication. He has designed award-winning educational initiatives such as “The Mysteries of Sherlock Holmes,” encouraging young learners to explore scientific reasoning through interactive puzzles. He has also been a coordinator for large public engagement events like European Researchers’ Night, where he introduced families to the science behind bee products. His consistent efforts to make science accessible and engaging for all age groups have been widely recognized and celebrated.

Legacy and Future Contributions

Dr. de la Fuente Ballesteros is building a lasting legacy that bridges analytical chemistry, sustainability, education, and communication. Through his innovations in method development, promotion of green metrics, and integration of AI in science, he is shaping the future of how chemistry is practiced and evaluated. His work is not only grounded in scientific excellence but also in a commitment to ethical and practical science that addresses global challenges. Looking forward, he is well-positioned to lead large-scale, multidisciplinary research initiatives and continue mentoring emerging scientists with a focus on innovation and sustainability.

Notable Publications

Ten principles for developing and implementing tools in the context of white analytical chemistry

  • Authors: Fuente-Ballesteros, A. et al.
    Journal: Sustainable Chemistry and Pharmacy
    Year: 2025

Violet Innovation Grade Index (VIGI): A new survey-based metric for evaluating innovation in analytical methods

  • Authors: Adrián Fuente-Ballesteros, Víctor Martínez-Martínez, Ana M. Ares, Silvia Valverde, Victoria Samanidou, José Bernal.
    Journal: Analytical Chemistry
    Year: 2025

Development and validation of an analytical methodology to determine deltamethrin residues and its metabolites in pine products using GC-QTOF-MS

  • Authors: Ana Jano, Adrián Fuente-Ballesteros, José Bernal, Ana M. Ares, Silvia Valverde.
    Journal: ACS Agricultural Science & Technology
    Year: 2025

Miniaturized analytical method to evaluate the profile of biogenic volatile organic compounds from Spanish tree species by gas chromatography coupled to mass spectrometry and chemometric tools

  • Authors: Adrián Fuente-Ballesteros, Ana M. Ares, José Bernal, Silvia Valverde.
    Journal: Journal of Chromatography Open
    Year: 2025

Paving the way towards green contaminant analysis: Strategies and considerations for sustainable analytical chemistry

  • Authors: Adrián Fuente-Ballesteros, Ana M. Ares, José Bernal.
    Journal: Green Analytical Chemistry
    Year: 2025

Conclusion

Dr. Adrián de la Fuente Ballesteros stands out as an exceptional scientist and innovator whose work embodies excellence in analytical chemistry, sustainability, and science communication. His diverse skill set, forward-thinking mindset, and passion for education and outreach make him a powerful force in both academic and societal contexts. As he continues to expand his research and leadership activities, his contributions are likely to leave a meaningful and enduring impact on the scientific community and beyond.

Ramadan Mekheimer | Organic Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Ramadan Mekheimer | Organic Chemistry | Best Researcher Award

Minia University | Egypt

Profile

Scopus

Early Academic Pursuits

Prof. Ramadan Ahmed Mekheimer began his academic journey with distinction, obtaining a Bachelor’s degree in Chemistry from Minia University. He further pursued postgraduate studies in Organic Chemistry, focusing on nitrones, cyclophanes, and the synthesis of azoles, azines, and azoloazines. His doctoral work laid a strong foundation for his later research in heterocyclic chemistry and synthetic methodologies. His academic excellence early in his career was recognized through prestigious academic fellowships, including international training opportunities.

Professional Endeavors

Prof. Mekheimer’s academic career has been deeply rooted in Minia University, where he rose steadily through the academic ranks, from a demonstrator to a full professor of Organic Chemistry. His service extended beyond teaching and research to academic governance, including roles on faculty councils, postgraduate and undergraduate education committees, and leadership as the head of the Chemistry Department. His academic roles reflect dedication to institutional development and strategic academic planning.

Contributions and Research Focus

Prof. Mekheimer has carved a niche in the field of organic synthesis, particularly in heterocyclic chemistry. His research centers on developing novel synthetic methodologies for nitrones, azides, and complex heterocyclic systems, often incorporating environmentally friendly techniques. He has shown particular interest in green chemistry, utilizing microwave irradiation, solar energy, and eco-friendly solvents such as water. These approaches align with sustainable chemical practices and highlight his commitment to advancing eco-conscious science.

Impact and Influence

Prof. Mekheimer’s impact is reflected in his collaborative ties with prominent international institutions and agrochemical companies in the USA and Europe. His work has been recognized by national awards from scientific bodies and universities, honoring his excellence in organic chemistry. Additionally, he has been selected as a referee for several high-impact international journals, demonstrating peer recognition of his scientific credibility and integrity. His advisory roles in journals such as Organic Letters and Green Chemistry Letters and Reviews underscore his influence in shaping contemporary chemical literature.

Academic Citations

He has published extensively in reputable international journals, with over 20 recent publications addressing topics like antimicrobial agents, anticancer compounds, fused heterocyclic systems, and green synthesis. His work includes both original research and comprehensive reviews, highlighting his dual focus on innovation and knowledge dissemination. His publications are frequently cited, reflecting their relevance and utility to the scientific community, especially in organic and medicinal chemistry.

Technical Skills and Scientific Expertise

Prof. Mekheimer brings deep expertise in heterocyclic compound synthesis, microwave-assisted organic reactions, photo-assisted green methodologies, and multi-component reactions. He is proficient in employing computational chemistry tools such as molecular docking and DFT studies, further enhancing the scientific value of his experimental findings. His interdisciplinary approach bridges synthetic chemistry with pharmaceutical and materials applications.

Teaching Experience

Prof. Mekheimer has supervised numerous M.Sc. and Ph.D. students, guiding them in diverse areas of organic synthesis. His mentorship has extended to both national and international institutions, including King Abdulaziz University. He is known for fostering independent thinking and research ethics among his students. Many of his mentees have successfully completed their degrees, with some currently pursuing advanced academic or professional careers, reflecting his influence on the next generation of chemists.

Scientific Collaborations and Global Engagement

He has actively engaged in long-term collaborations with major international agrochemical companies and academic institutions. His work with American Cyanamid, Dupont, Dow Agrochemicals, and Specs and Biospecs (Netherlands) reflects a strong industry-academia linkage. Additionally, his participation in numerous international and regional scientific conferences highlights his global visibility and his role in disseminating new knowledge across borders.

Legacy and Future Contributions

Prof. Mekheimer’s legacy lies in his ability to blend academic rigor, innovative synthesis, and sustainable chemistry. His future work is poised to further explore green and bioactive heterocycles, expanding into medicinal chemistry and drug discovery. He continues to inspire through active research, international collaboration, and an unwavering commitment to academic mentorship. His ongoing work contributes to solving real-world challenges in health, environment, and agriculture.

Notable Publications

A novel one‑pot microwave assisted green synthesis of pyridinyl‑1,3,5‑triazine‑2,4‑diamine hybrids as potent antimicrobial agents

  • Authors: Omniya Sayed Zaky, Mohamed Hisham, Mohamed Abd‑Elmonem, Ramadan Yahia, Laila Abdulmohsen Jaragh‑Alhadad, Ramadan Ahmed Mekheimer, Gamal El‑Din A. Abuo‑Rahma, Moustafa Sherief Moustafa, Manal Makboul Ebied, Kamal Usef Sadek

  • Journal: BMC Chemistry

  • Year: 2025

A Novel one-pot three-component synthesis of 4-aryl-6-alkylamino/piperidinyl-1,3,5-triazine-2-amines under controlled microwaves irradiation

  • Authors: Laila A. Jaraph-Alhadad, Ramadan Ahmed Mekheimer, Mohamed Abd-Elmonem, Moustafa Sherief Moustafa, Afaf Abdel-Hameed, Gamal El-Din A. Abuo-Rahma, Kamal Usef Sadek

  • Journal: Arkivoc

  • Year: 2023

Visible-light assisted base-catalyzed, one-pot synthesis of highly functionalized cinnolines

  • Authors: Ahmed Elkamhawy, Laila Jaragh-Alhadad, Ramadan Ahmed Mekheimer, Omeima Abdullah, Mohamed Abd-Elmonem, Moustafa Sherief Moustafa, Afaf Abdel-Hameed, Tahany Mahmoud Mohamed, Kamal Usef Sadek

  • Journal: Green Processing and Synthesis

  • Year: 2023

Recent developments in the synthesis of hybrid heterocycles, a promising approach to develop multi-target antibacterial agents

  • Authors: Kamal Usef Sadek, Ramadan Ahmed Mekheimer, Mohamed Abd-Elmonem, Fatma A. Abo-Elsoud, Alaa M. Hayallah, Sara M. Mostafa, Magda H. Abdellattif, Mohammed A.S. Abourehab, Thoraya A. Farghaly, Ahmed Elkamhawy

  • Journal: Journal of Molecular Structure

  • Year: 2023

New s-triazine/tetrazole conjugates as potent antifungal and antibacterial agents: design, molecular docking and mechanistic study

  • Authors: Ramadan Ahmed Mekheimer, Gamal El-Din A. Abuo-Rahma, Mohamed Abd-Elmonem, Ramadan Yahia, Mohamed Hisham, Alaa M. Hayallah, Sara M. Mostafa, Fatma A. Abo-Elsoud, Kamal Usef Sadek

  • Journal: Journal of Molecular Structure

  • Year: 2022

Conclusion

Prof. Ramadan Ahmed Mekheimer exemplifies the ideal of a research-driven academician whose work has both depth and relevance. His journey from a promising scholar to an established authority in organic chemistry reflects dedication, innovation, and academic leadership. His continuous efforts in sustainable chemistry, global scientific collaboration, and mentorship make him a vital asset to the scientific community and a deserving candidate for recognition in research excellence.

Myrtil Kahn | Coordination Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Dr. Myrtil Kahn | Coordination Chemistry | Best Researcher Award

CNRS | France

Profiles

Scopus
Orcid

Early Academic Pursuits

Dr. Myrtil L. Kahn began her academic journey with a PhD in molecular compounds, under the supervision of a renowned expert in the field of coordination chemistry. Her doctoral work laid a strong foundation in molecular chemistry, which she later expanded into interdisciplinary domains. Her postdoctoral research included advanced work on ferrite nanoparticles and intermetallic particles, which positioned her at the intersection of nanoscience, materials chemistry, and applied physics.

Professional Endeavors

Following her postdoctoral experience, Dr. Kahn joined CNRS and quickly rose through the ranks to become a Senior Scientist and Research Director. She currently leads the “Nano-chemistry, Organization, and Sensors” team at the Laboratory of Coordination Chemistry (LCC) and also co-directs a multidisciplinary research initiative in collaboration with another leading national laboratory. This joint effort culminated in the establishment of a CNRS-affiliated joint research laboratory, reflecting her leadership in managing strategic partnerships with key industrial and governmental stakeholders, including aerospace and space agencies.

Contributions and Research Focus

Dr. Kahn’s research centers on nanoscience and its application to broad societal challenges such as energy, environment, space, aeronautics, and health. She has significantly contributed to the design and synthesis of hybrid nano-objects and multifunctional coatings. Her work focuses on controlling the structural and functional properties of nanoparticles particularly semiconductor and magnetic oxides and integrating them into real-world devices. Utilizing a safe-by-design philosophy, she innovates at the interface of molecular chemistry, surface science, and nanotechnology. Her research also emphasizes understanding surface-ligand interactions through advanced techniques like NMR spectroscopy, which is crucial for ensuring colloidal stability and optimizing material behavior in biological and industrial environments.

Impact and Influence

Dr. Kahn has established herself as a leader in applied nanosciences, successfully bridging fundamental chemistry with device integration. Her research has attracted substantial funding through over thirty competitive contracts, nearly half of which involve industrial collaborations. These projects have led to multiple patents with international extensions, showcasing her commitment to innovation and knowledge transfer. Beyond scientific output, her leadership in organizing large-scale conferences and her role in interdisciplinary teams underscore her influence across both academic and industrial landscapes.

Academic Citations

Her research excellence is reflected in her strong citation metrics. With thousands of citations and an impressive h-index, her work enjoys sustained recognition in the global scientific community. She has authored more than a hundred publications in peer-reviewed international journals, contributed to several book chapters, and is actively involved in reviewing and editorial responsibilities within leading scientific events and journals.

Technical Skills

Dr. Kahn possesses deep technical expertise in organometallic synthesis, nanoparticle surface chemistry, colloidal stability, and functional coatings. She has extensive experience in spectroscopic analysis, particularly NMR, for the investigation of ligand dynamics and surface coordination. Her proficiency extends to hybrid material fabrication, integration of nanoparticles into sensors and devices, and the development of safe-by-design methodologies. This multidisciplinary toolkit enables her to work effectively at the interface of chemistry, physics, and biology.

Teaching Experience

While her primary role is research-intensive, Dr. Kahn actively contributes to mentoring young researchers and postdoctoral fellows. She fosters scientific development through collaborative research, co-authorship, and direct supervision. Her mentorship style is marked by encouraging innovation and interdisciplinary approaches, preparing early-career scientists for careers in both academia and industry.

Legacy and Future Contributions

Dr. Kahn’s legacy is one of impactful science, interdisciplinary collaboration, and societal relevance. Her commitment to applied nanoscience has led to the development of novel materials and processes with potential applications in biotechnology, aerospace, and environmental technology. As co-director of a cutting-edge joint research lab, she continues to expand her collaborative reach, ensuring that her contributions influence the next generation of researchers. Her ongoing projects in multifunctional nanocomposites and hybrid processes promise continued breakthroughs in high-performance materials.

Notable Publications

Competition between ordered morphologies of functionalized silver nanoparticles elucidated by a joint experimental and multiscale theoretical study

Authors: David Loffreda; Nathalie Tarrat; Corinne Lacaze‑Dufaure; Franck Rabilloud; Katia Fajerwerg; Myrtil L. Kahn; Vincent Collière; Christine Lepetit; Pierre Fau
Journal: Nano Today
Year: 2025

Understanding Ion‑Exchange Processes in the Synthesis of ZnSₓ@ZnO₁₋ₓ Heterostructures from Controlled Sulfidation of ZnO Nanocrystals

Authors: Ekaterina Bellan; Martin Jakoobi; Vincent Collière; Yannick Coppel; Julien Trébosc; Olivier Lafon; Pierre Lecante; Paul Fleurat‑Lessard; Céline Dupont; Jean‑Cyrille Hierso; Pierre Fau; Katia Fajerwerg; Lauriane Pautrot‑d’Alençon; Thierry Le Mercier; Myrtil L. Kahn
Journal: Chemistry of Materials
Year: 2024

Spontaneous Emulsification of Organometallic Complexes Applied to the Synthesis of Nanocapsules Active for H₂ Release from Ammonia‑Borane

Authors: Olivier Gazil; Ludivine Rault; Déborah Iglicki; Vincent Collière; Gizem Karacaoglan; Didier Poinsot; Moad Bouzid; Jean‑Cyrille Hierso; Myrtil L. Kahn; Nick Virgilio; Fabienne Gauffre
Journal: Langmuir (The ACS Journal of Surfaces and Colloids)
Year: 2024

Synthesis of TiO₂/SBA‑15 Nanocomposites by Hydrolysis of Organometallic Ti Precursors for Photocatalytic NO Abatement

Authors: Ons El Atti; Julie Hot; Katia Fajerwerg; Christian Lorber; Bénédicte Lebeau; Andrey Ryzhikov; Myrtil L. Kahn; Vincent Collière; Yannick Coppel; Nicolas Ratel‑Ramond; Philippe Ménini; Pierre Fau
Journal: Inorganics
Year: 2024

Conclusion

Dr. Myrtil L. Kahn stands as a prominent figure in nanoscience and coordination chemistry. Her pioneering research, strong industrial collaborations, and leadership in both national and international scientific communities demonstrate her eligibility for high-level scientific honors. Through her interdisciplinary vision and dedication to real-world impact, she continues to shape the future of materials science and remains an exemplary model for academic and industrial synergy.

 

Jian Xu | Polymer Chemistry | Analytical Chemistry Award

Published on by Analytical Chemistry

Prof. Jian Xu | Polymer Chemistry | Analytical Chemistry Award

Dalian University of Technology | China

Profile

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Early Academic Pursuits

Dr. Xu Jian’s academic journey reflects a strong foundation in engineering and material sciences. He began his undergraduate studies in civil engineering at Ocean University of China, where he developed core competencies in structural analysis and engineering mechanics. He further deepened his knowledge with a master’s degree in civil engineering from the Technical University of Braunschweig in Germany, where he was introduced to international research methodologies and advanced engineering principles. Pursuing his passion for materials science, Dr. Xu earned a Ph.D. in composite materials from the University of Leuven, Belgium. Under the guidance of Professor I. Verpoest a prominent figure in textile composites and a member of the Royal Academy of Sciences of Belgium Dr. Xu’s doctoral work laid the groundwork for his future contributions to multi-scale modeling and fatigue damage analysis in textile composites.

Professional Endeavors

Dr. Xu’s professional career spans internationally recognized research institutions and industry-leading organizations. He began as a research assistant at the German Aerospace Center, followed by a stint as a programmer in the tech industry. His post-doctoral years saw him working as an R&D engineer at Compus GmbH in Germany and later as a research scientist at the Institute of Advanced Materials in Madrid. He has since held prominent positions at the Ningbo Institute of Materials Technology and Engineering under the Chinese Academy of Sciences and the School of Chemical Engineering at Dalian University of Technology. His roles in these institutions demonstrate his dual capability as both a leading academic researcher and an innovator in applied materials technology.

Contributions and Research Focus

Dr. Xu Jian has significantly advanced multi-scale simulation, composite process development, and automated equipment for fiber placement. He developed a dual-scale fatigue model that cuts material evaluation time by over 75%. His “3+1” impact simulation model supports fighter aircraft component design. Xu pioneered robot-assisted fiber placement systems adopted by Audi and BMW. He innovated laser-assisted in-situ curing methods for thermoplastic composites. His work on silicon carbide composites enhances nuclear material safety and performance.

Impact and Influence

Dr. Xu’s work has had far-reaching industrial and academic influence. His research outputs have been applied in aerospace fuselage design, automotive structural components, and nuclear reactor materials, marking his contributions as both cutting-edge and practically transformative. He has led or participated in over ten major national and international projects, collaborating with prestigious organizations like Airbus, BMW Group, Audi, and the German Aerospace Center. The tools, methods, and equipment developed under his leadership have been adopted in both civilian and defense-related composite engineering sectors.

Academic Citations

With 39 publications, including 25 SCI-indexed articles and high-level conference papers, Dr. Xu has established a robust academic presence. His works appear in top-tier journals such as Engineering Fracture Mechanics, Materials Science and Engineering A, Ceramics International, Composite Structures, and Composites Science and Technology. He has also contributed to four book chapters, including collaborations with his Ph.D. advisor, and has been actively involved in academic conference proceedings globally. His research is frequently cited in the context of composite fatigue modeling, meso-scale simulation, and damage mechanics.

Technical Skills and Innovations

Dr. Xu is a proficient developer of composite materials processing technologies, especially those involving robot-assisted fiber placement, thermoplastic composite welding, and multi-scale simulation software. He holds nine patents, including those for equipment related to laser-assisted forming, dual-robot resistance welding, and fiber preform laying systems. His innovative mindset has resulted in practical tools that support rapid prototyping, large-scale manufacturing, and process optimization in industrial environments.

Teaching and Mentorship Experience

As a professor and doctoral supervisor, Dr. Xu is actively involved in training the next generation of materials scientists and engineers. He has supervised more than a dozen doctoral, master’s, and postdoctoral researchers, and currently oversees a large cohort of graduate students across multiple academic levels. His teaching style emphasizes a strong linkage between theoretical understanding and hands-on application. He also serves as a reviewer and guest editor for core journals in his field, such as the International Journal of Fatigue and Composites Part B, thereby contributing to academic quality assurance and knowledge dissemination.

Legacy and Future Contributions

Dr. Xu Jian’s career reflects a deep commitment to advancing the field of composite materials through a synergy of modeling, process innovation, and industrial collaboration. His leadership in large-scale research initiatives and his successful translation of academic research into real-world technologies highlight his ongoing value to both academia and industry. Looking forward, Dr. Xu is expected to expand his influence through initiatives targeting green manufacturing, next-generation aerospace structures, and nuclear-grade composite innovations, all while continuing to cultivate international partnerships and contribute to national research strategies.

Honors and Recognitions

Dr. Xu has received numerous accolades recognizing his scientific and technological contributions. These include the First Prize of the Baden-Württemberg State Government Technological Innovation Award for his role in advancing fiber placement technologies, membership in the Academic Committee of the Ministry of Education’s Key Laboratory, and recognition as a leading talent in Ningbo. He has also led award-winning innovation teams under prestigious national programs.

Notable Publications

Resistance welding of thermoplastic composites with nanofiber films prepared by electrospinning technique

Authors: Zhao G., Chen T., Xia X., Zhao Y., Liu C., Jian X., Zhang S., Xu J.
Journal: Composites Part B: Engineering
Year: 2023

A Simple Method for Preparation of Highly Conductive Nitrogen/Phosphorus-Doped Carbon Nanofiber Films

Authors: Chen T., Chi Y., Liu X., Xia X., Chen Y., Xu J., Song Y.
Journal: Materials
Year: 2022

The role of carbon in microstructure evolution of SiBCO ceramics

Authors: Xia X., Yang F., Zhao G., Liu X., Chen T., Huang Q., Jian X., Song Y., Xu J.
Journal: Ceramics International
Year: 2022

A rate-dependent cohesive zone model with the effects of interfacial viscoelasticity and progressive damage

Authors: Zhao G., Xu J., Feng Y., Tang J., Chen Y., Xin S., Jian X., Li S., Zhang S.
Journal: Engineering Fracture Mechanics
Year: 2021

An Advanced Finite Element Modeling for the Failure of Notched Ceramic Matrix Composite With TFP Patch Reinforcement

Authors: Zhao G., Tang J., Wang J., Chen Y., Feng Y., Chen Y., Xin S., Jian X., Li S., Zhang S. et al.
Journal: Frontiers in Materials
Year: 2021

Conclusion

Dr. Xu Jian exemplifies the integration of academic rigor, technological innovation, and real-world application in the realm of composite materials and process engineering. His multidimensional research, significant patent portfolio, and leadership in industrial collaborations position him as a transformative figure in his field. With a forward-looking vision anchored in sustainable and high-performance material solutions, Dr. Xu continues to contribute meaningfully to the global scientific community and strategic industry sectors.

Jugal Bori | Green Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Assist. Prof. Dr. Jugal Bori | Green Chemistry | Best Researcher Award

Netaji Subhas University of Technology | India

Profiles

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Early Academic Pursuits

Dr. Jugal Bori began his academic journey in the field of chemistry with a foundational education in science. His deep-rooted interest in the subject led him to pursue a Bachelor’s degree in Chemistry, followed by a Master’s degree from a reputed university in Assam, India. He later earned a Doctorate in Chemistry from the Indian Institute of Technology (IIT), Guwahati. His doctoral research focused on the synthesis and characterization of nitrogen-containing heterocycles and their coordination chemistry, laying a strong foundation for his future research endeavors.

Professional Endeavors

Dr. Bori is currently serving as an Assistant Professor in the Department of Chemistry at Netaji Subhas University of Technology (NSUT), Delhi. In this role, he combines academic teaching with active research. His transition into academia has been complemented by his prior success in national-level competitive examinations such as the CSIR-UGC-NET (JRF) and GATE, demonstrating his academic competence and dedication to chemical sciences.

Contributions and Research Focus

Dr. Bori’s research contributions span several high-impact areas in chemistry. His primary areas of focus include coordination chemistry, supramolecular chemistry, nanomaterials, and catalysis. He has actively worked on the development of novel synthetic pathways for heterocyclic compounds and has explored their structural and functional properties. His work also extends into green synthesis approaches, environmental remediation using nanomaterials, and catalytic conversion of biomass-derived compounds. Additionally, he has collaborated on interdisciplinary projects involving advanced materials like perovskite-titanium dioxide systems and zinc-doped ferrites for energy and environmental applications.

Impact and Influence

Dr. Bori has published several research articles in well-recognized journals such as ChemistrySelect, Inorganica Chimica Acta, Journal of Heterocyclic Chemistry, and Biomass and Bioenergy. His co-authored works have contributed to the growing body of knowledge in both organic and inorganic chemistry, especially with respect to material science and catalysis. His involvement in reviewing journal manuscripts for high-impact journals such as the Journal of Environmental Chemical Engineering further emphasizes his role as a peer in the global scientific community.

Academic Contributions and Citations

Through multiple journal publications and collaborative works, Dr. Bori has built a steady citation record. His scholarly output demonstrates quality over quantity, with a clear trajectory toward interdisciplinary and applied research. The range of journals and diversity of co-authors in his publications reflect both national and institutional collaborations, thereby enhancing the reach and relevance of his research.

Technical Skills

Dr. Bori possesses hands-on expertise with a wide array of advanced analytical and characterization tools. These include Field Emission Scanning Electron Microscopy (FESEM), Single Crystal X-ray Diffraction (SCXRD), Nuclear Magnetic Resonance (NMR) Spectroscopy (400 MHz), UV-Visible and Fluorescence Spectroscopy, and Fourier-Transform Infrared (FT-IR) Spectroscopy. His proficiency with these instruments supports his ability to conduct in-depth structural and functional analysis of chemical compounds and materials.

Teaching Experience

As an Assistant Professor at NSUT Delhi, Dr. Bori is engaged in both undergraduate and postgraduate teaching. His responsibilities likely include lecturing, mentoring research students, and developing curriculum aligned with current trends in chemical education and research. His background as a researcher enriches his teaching, allowing students to benefit from a practical and research-oriented learning environment.

Legacy and Future Contributions

Dr. Bori is steadily building a legacy as a chemist who integrates classical synthetic chemistry with emerging fields such as nanotechnology and sustainable catalysis. His work on environmentally friendly synthesis methods and multifunctional materials positions him well to contribute to pressing global challenges in energy, environment, and materials science. In the future, he is expected to further expand his research portfolio through international collaborations, research funding, and leadership roles in academic and scientific forums.

Notable Publications

High resistive switching current ratio, excellent endurance and stability for bistable non-volatile memristor and photosensing devices based on perovskite/titanium dioxide
Authors: G. Poply, D. Kumar, T. Majumder, T. Kumar, V. Singh, J. Bori, J. J. L. Hmar
Journal: Materials Science in Semiconductor Processing
Year: 2025

A facile green synthesis of ultra small silver nanoparticles using aqueous branch extract of Dipterocarpus retusus (Hollong) promoting catalytic degradation of organic pollutants
Authors: P. J. Goswami, K. Kashyap, D. Dutta, M. Lal, J. J. L. Hmar, J. Bori
Journal: Industrial Crops and Products
Year: 2025

Phosphotungstic acid immobilized over SnO₂ mesoporous material as a heterogeneous catalyst for fructose to 5-hydroxymethylfurfural conversion
Authors: D. Brahma, R. R. Wary, J. Bori, P. Kalita
Journal: Biomass and Bioenergy
Year: 2023

A new synthetic route for synthesis of 3‐substituted imidazo[1,5‐a]pyridines
Authors: J. Bori, V. Manivannan
Journal: Journal of Heterocyclic Chemistry
Year: 2022

A new route for the synthesis of 2,4-bis(2-pyridyl)-6-(pyridyl)pyrimidines: Synthesis and characterization of Co(II), Ni(II) complexes of 2,4,6-tris(2-pyridyl)pyrimidine
Authors: J. Bori, S. Mahata, V. Manivannan
Journal: Inorganica Chimica Acta
Year: 2020

Conclusion

Dr. Jugal Bori is a dedicated academic and researcher with a growing impact in the field of chemical sciences. His interdisciplinary approach, technical competence, and active scholarly engagement reflect a strong potential for leadership in both research and teaching. With continued focus on innovative, sustainable, and applied research, he is poised to make significant contributions to the scientific community in the years ahead.