Evanimek Bernardo Sabino da Silva | Physical Chemistry | Best Researcher Award

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Dr. Evanimek Bernardo Sabino da Silva | Physical Chemistry | Best Researcher Award

Federal University of Rio Grande do Norte | Brazil

Dr. Evanimek Bernardo Sabino da Silva is a distinguished chemical engineer and researcher with extensive experience in chemistry, geophysics, mining, and environmental consulting. He earned his Bachelor’s and Doctorate degrees in Chemistry, as well as a Master’s in Geophysics, from the Federal University of Rio Grande do Norte (UFRN), where he also completed postdoctoral research at the Institute of Chemistry. Complementing this, he pursued postdoctoral studies in materials chemistry at the University of Santiago de Chile. His professional career includes roles as a Mining Technician at Codelco do Brasil Mineração LTDA, Geophysics Technician at the Rio Grande do Norte Research Support Foundation, and Full-Level Chemist at Mona Environmental Consulting. He further advanced his expertise as a Postdoctoral researcher at both UFRN and Universidad de Santiago de Chile, before contributing as a Chemical Engineer at Nucleo Advisory Engineering S.A. His research interests encompass advanced materials, green synthesis, and nanotechnology, notably focusing on Sol-Gel protein methods for nanoparticle preparation and sustainable systems for Ni and Co ferrites using cashew gum precursors. Through his multidisciplinary career across Brazil and Chile, Dr. Sabino da Silva has demonstrated a strong commitment to scientific innovation, environmental sustainability, and applied chemical engineering solutions.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

"Assessing the Origin and Mapping the Extension of Salinity Around Shrimp Culture Ponds in Rio Grande Do Norte (Brazil)"

"Synthesis of spinel ferrites from cashew gum for microwave devices application"

"Production of nanostructured ternary oxides of the pure and rare earth-doped perovskite type"

"Green chemistry synthesis of wolframites: An investigation about stoichiometric ratios, optical, structural, vibrational, and physico-chemical properties"

"(Bi13Co11)Co2O40–Co3O4 composites: Synthesis, structural and magnetic properties"

Vijaykumar Nimbarte | Medicinal Chemistry | Best Researcher Award

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Dr. Vijaykumar Nimbarte | Medicinal Chemistry | Best Researcher Award

BITS Pilani Hyderabad Campus | India

Author Profiles

Scopus

Google Scholar

Early Academic Pursuits

Dr. Vijaykumar Nimbarte began his academic journey with a Bachelor’s degree in Pharmaceutical Sciences from Nagpur University, India, where he acquired foundational knowledge in pharmaceutics, pharmacology, pharmaceutical chemistry, and pharmacognosy. He further advanced his expertise with an M.S. in Medicinal and Pharmaceutical Chemistry from NIPER Hyderabad, India, focusing on the design, synthesis, and biological evaluation of novel soluble epoxide hydrolase inhibitors with anti-inflammatory potential. During this period, he received the NIPER research assistantship and GPAT fellowship and participated in multiple drug discovery workshops, laying a strong foundation in medicinal chemistry. His Ph.D. at Goethe University, Germany, under the Marie Curie Early Stage Researcher Fellowship, focused on the design, synthesis, and evaluation of novel c-MYC G-Quadruplex stabilizing agents, earning him the highest distinction (magna cum laude).

Professional Endeavors

Following his Ph.D., Dr. Nimbarte expanded his research expertise through several key roles in international academic and industrial settings. He worked as a Project Associate in France at the University of Le Havre, where he developed azaindole-based compounds for anticancer activity. At CSIR-IICT Hyderabad, he contributed to synthesizing PBD-based intercalating agents and novel tubulin polymerase inhibitors. Most recently, he served as a Post-Doctoral Scientist at the Max Planck Institute for Medical Research, Germany, where he focused on structure-based drug design for peripheral neuropathy, collaborating with international research centers to optimize CNS-restricted drug candidates. Since January 2024, he has been an Assistant Professor of Medicinal Chemistry at BITS Pilani, Hyderabad, India.

Contributions and Research Focus

Dr. Nimbarte’s research primarily revolves around medicinal chemistry, structure-based drug design, chemical biology, and the development of biologically active small molecules. His work spans multistep organic synthesis, isotope labeling, and characterization using NMR, Mass, IR, and UV techniques. He has actively contributed to designing compounds that stabilize G-Quadruplex DNA structures, targeting cancer, and developing peripheral-restricted CNS drug candidates, addressing blood-brain barrier permeability issues. He has also applied advanced computational methods, including Schrodinger and ChemAxon software, to improve the efficiency and specificity of drug design.

Impact and Influence

With over 10 years of academic-industrial research experience, Dr. Nimbarte has significantly influenced the field of medicinal chemistry. His projects have successfully transitioned from conceptual design to lead candidate development, demonstrating his ability to combine theoretical design with practical synthesis and biological evaluation. He has collaborated internationally, mentored graduate students, led small group teaching sessions, and contributed to scientific knowledge through presentations and publications.

Academic Citations and Publications

Dr. Nimbarte has published more than 17 research papers in reputable international medicinal chemistry journals, including ChemMedChem. He has served as a potential reviewer for multiple journals such as Medicinal Chemistry Research, Bioorganic and Medicinal Chemistry Letters, Bioorganic Chemistry, and Current Medicinal Chemistry, reflecting his recognition as an expert in his field.

Legacy and Future Contributions

Dr. Nimbarte’s legacy lies in bridging the gap between academic research and practical drug discovery through innovative medicinal chemistry approaches. His work on G-Quadruplex stabilizing agents and peripherally restricted CNS drugs has paved the way for safer, more effective therapeutic candidates. Looking forward, his focus will likely continue on designing targeted small molecules with high therapeutic potential while mentoring the next generation of scientists and expanding interdisciplinary collaborations.

Conclusion

Dr. Vijaykumar Nimbarte exemplifies the integration of deep scientific knowledge, practical drug discovery experience, and academic mentorship. His early academic achievements, international research exposure, and impactful publications reflect a career dedicated to advancing medicinal chemistry. Through his innovative approaches, collaborative ethos, and commitment to teaching, he continues to make significant contributions to both the scientific community and future generations of researchers.

Notable Publications

“Understanding the Impact of Calcineurin Inhibitors on T Cell Regulation: Mechanisms and Clinical Implications

  • Author: VD Nimbarte, SS Sonak, S Ishwarkar
  • Journal: Critical Reviews
  • Year: 2025

"Modulation of T Cell Regulation by Interleukin-2 Agonists: Mechanisms and Clinical Implications

  • Author: SS Sonak, S Ishwarkar, C Nimbarte, VD Nimbarte‏
  • Journal: Critical Reviews
  • Year: 2025

"Synthesis and in Vitro Evaluation of Novel 5‐Nitroindole Derivatives as c‐Myc G‐Quadruplex Binders with Anticancer Activity

  • Author: VD Nimbarte, J Wirmer‐Bartoschek, SL Gande, I Alshamleh, M Seibert
  • Journal: ChemMedChem
  • Year: 2021

"Synthesis and Biological Screening of New Lawson Derivatives as Selective Substrate‐Based Inhibitors of Cytochrome bo3 Ubiquinol Oxidase from Escherichia coli

  • Author: I Elamri, M Radloff, KF Hohmann, VD Nimbarte, HR Nasiri, M Bolte‏
  • Journal: ChemMedChem‏
  • Year: 2020

"Anti-tyrosinase, anti-cholinesterase and cytotoxic activities of extracts and phytochemicals from the Tunisian Citharexylum spinosum L.: Molecular docking and SAR analysis

  • Author: I Saidi, VD Nimbarte, H Schwalbe, P Waffo-Teguo, AH Harrath, L Mansour
  • Journal: Bioorganic Chemistry
  • Year: 2020

Kumara Swamy | Chemistry | Best Researcher Award

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Dr. B.E. Kumara Swamy | Chemistry | Best Researcher Award

Kuvempu University | India

Author Profile

Google Scholar

Early Academic Pursuits

Dr. B.E. Kumara Swamy demonstrated academic excellence from the very beginning of his educational journey. He secured his B.Sc. in Physics, Chemistry, and Mathematics with distinction in 1995, followed by an M.Sc. in Industrial Chemistry in 1997, where he achieved First Rank and was honored with the Gajendraghad Gold Medal. His strong foundation in chemistry paved the way for his Ph.D. at Kuvempu University (2002), where his doctoral research focused on cyclic voltammetric investigations of biologically and synthetically important organic and inorganic compounds. These early academic milestones highlighted his deep interest in electrochemistry and provided the groundwork for his later pioneering research.

Professional Endeavors

Dr. Swamy’s professional career spans more than two decades at Kuvempu University, where he advanced from Guest Lecturer in 1997 to his current role as Professor of Industrial Chemistry (2021–present). He has taught diverse postgraduate programs in Electrochemistry, Polymer Chemistry, Nanoscience, and Spectroscopy, contributing significantly to curriculum development. Alongside his teaching, he has held various administrative roles including Deputy Registrar, Assistant Director, Deputy Director of IQAC, Special Officer to the Vice-Chancellor, and Chairman of the Department of Industrial Chemistry. These positions demonstrate his multifaceted leadership and commitment to strengthening academic governance and institutional development.

Contributions and Research Focus

Dr. Swamy’s research primarily centers on electrochemical sensors, nanomaterials, and voltammetry-based detection methods. His pioneering work on carbon paste electrodes modified with nanostructures has contributed to advancements in detecting biologically and environmentally relevant molecules such as dopamine, serotonin, uric acid, and antibiotics. His post-doctoral research in the USA, funded by the National Science Foundation (2003–2006) and the University of Virginia (2006), further enriched his expertise in nonlinear electrochemical systems and biomedical sensors. His contributions extend beyond laboratory research, as evidenced by his Indian patents (2022, 2023, 2025) related to novel electrochemical detection methods, underlining his innovation-driven approach to applied chemistry.

Impact and Influence

Dr. Swamy’s influence extends internationally, with recognition by Stanford University’s Top 2% Most-Cited Scientists for four consecutive years (2020–2024). Furthermore, he was ranked among the Top 0.05% Highly Ranked Scholars globally by ScholarGPS (2022–2024), underscoring the global relevance of his work in energy and electrochemistry. His awards, including the Young Scientist Awards (2000, 2012), the Demetrios Nikeleis Award (2015), and the Dr. A.P.J. Abdul Kalam Lifetime Achievement Award (2016), highlight his consistent contributions to science and innovation. Through his teaching and mentorship, he has influenced several generations of students and researchers, advancing knowledge in electroanalytical chemistry.

Academic Citations and Recognition

Dr. Swamy’s prolific output includes numerous research papers presented at national and international conferences and publications in peer-reviewed journals. His work is frequently cited, reflecting its high impact across electrochemistry, nanoscience, and sensor technology. His recognition in Stanford’s global citation database and by international science agencies is a testament to the quality, originality, and continued relevance of his research.

Legacy and Future Contributions

Dr. Swamy’s legacy lies in his ability to integrate fundamental electrochemical theory with practical applications in medicine, environment, and nanotechnology. His patents, leadership roles, and academic contributions mark him as a visionary scientist who bridges academia, research, and innovation. Looking ahead, his ongoing work in nanomaterial-based sensors and green electrochemical methods is expected to address emerging challenges in healthcare and environmental monitoring. His sustained dedication to advancing industrial chemistry ensures his continued role as a thought leader and mentor for future generations.

Conclusion

Dr. B.E. Kumara Swamy stands out as a distinguished academician, researcher, and innovator whose career reflects excellence in teaching, pioneering research, and impactful leadership. His contributions to electrochemistry and nanotechnology, combined with his global recognition as one of the most-cited scientists, establish him as a deserving candidate for honors such as the Outstanding Scientist Award. With a proven track record of academic brilliance, innovation, and mentorship, his journey exemplifies both scientific achievement and societal impact.

Notable Publications

"Fabrication of CuS-MoO3 nanocomposite for high-performance photocatalysis and biosensing

  • Author: EV Kumar, TL Soundarya, BEK Swamy, G Nagaraju
  • Journal: Journal of Molecular Structure
  • Year: 2025

"Advanced ZnFe₂O₄@ f-CNF electrode: A robust electrochemical sensor for Tert-butyl hydroquinone detection in food and edible oil

  • Author: R Yemmi, BEK Swamy, KM Manjunath, K Yusuf, AM Aljuwayid
  • Journal: Food Chemistry
  • Year: 2025

"Environmental contaminants detection by disposable burnt carving-based graphite pencil electrode for hydroquinone and catechol

  • Author: BEK Swamy, SC Sharma
  • Journal: Microchemical Journal
  • Year: 2025

"One step facile green synthesis of ZnFe2O4-ZnO Nanocomposite: Efficient photocatalytic activity towards organic dyes under visible light and photoluminescence applications

  • Author: EV Kumar, R Harini, BEK Swamy, G Nagaraju
  • Journal: Environmental Nanotechnology, Monitoring & Management 23
  • Year: 2025

"A sensitive detecting and analyzing of indigo carmine at ZnO nanoparticle modified carbon paste electrode: a voltammetric study

  • Author: M B,Puneeth, B.E.Kumara, Swamy and L.S
  • Journal: Sensing Technology
  • Year: 2025

 

Adnan Ali Khan | Applied Chemistry | Young Scientist Award

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Dr. Adnan Ali Khan | Applied Chemistry | Young Scientist Award

Lecturer at University of Malakand Chakdara Pakistan, Pakistan📖

Dr. Adnan Ali Khan is a distinguished researcher in applied chemistry, specializing in computational chemistry for energy storage systems. His expertise lies in the design and analysis of rechargeable magnesium-ion batteries using first-principles studies. With over a decade of academic and research experience, he has significantly contributed to the development of microporous polymeric cathode materials, catalytic mechanisms, and advanced material modeling. Dr. Khan’s impactful research is reflected in his numerous publications in high-impact journals and his active involvement in computational materials science.

Profile

Scopus Profile

Google Scholar Profile

Education Background🎓

  • Ph.D. in Applied Chemistry (2017–2024)
    Thesis: First Principles Study of Quinone Derivatives Conjugated Polymers Electrode Materials for Magnesium Ion Batteries
    University of Malakand, Pakistan
  • M.Phil. in Applied Chemistry (2015–2017)
    Thesis: Ab-Initio Study of Halotoluenes
    University of Malakand, Pakistan
  • Bachelor of Science in Chemistry (2009–2013)
    Thesis: Qualitative and Quantitative Analysis of Drinking Water Samples of Different Localities in District Lower Dir
    Islamia College Peshawar, Pakistan

Professional Experience🌱

Dr. Khan has served as a lecturer and researcher at esteemed institutions, including the University of Malakand and Gandhara Institute of Basic Sciences. His work spans teaching, material modeling, and computational research funded by the Higher Education Commission of Pakistan. Notably, his Ph.D. studentship under Project No. 1486 involved the development of novel microporous polymeric cathode materials for magnesium-ion batteries, showcasing his ability to address cutting-edge challenges in energy storage technologies.

Research Interests🔬
  • Computational chemistry and first-principles studies
  • Design and optimization of electrode materials for rechargeable batteries
  • Catalytic mechanisms for environmental and energy applications
  • Microporous polymeric materials for energy storage
  • Density Functional Theory (DFT) and advanced simulation codes

Author Metrics

Dr. Khan’s research output includes over 50 publications in reputable journals such as Journal of Power Sources, Computational Materials Science, and Journal of Physical Chemistry C. His work has garnered significant recognition, reflected by:

  • Impact Factor: 209.98 (2024)
  • h-index: 17
  • i10-index: 24
  • Citations: Over 800

His research contributions focus on enhancing the performance of energy storage materials and advancing computational chemistry methodologies.

Publications Top Notes 📄

1. Adsorptive removal of Cd²⁺ from aqueous solutions by a highly stable covalent triazine-based framework

  • Authors: Z.A. Ghazi, A.M. Khattak, R. Iqbal, R. Ahmad, A.A. Khan, M. Usman, F. Nawaz, et al.
  • Journal: New Journal of Chemistry
  • Volume: 42, Issue 12, Pages 10234-10242
  • Year: 2018
  • Citations: 84
  • Abstract: This study explores the efficacy of a covalent triazine-based framework for the adsorptive removal of cadmium ions (Cd²⁺) from aqueous solutions. It demonstrates exceptional stability and high adsorption capacity, supported by experimental results and theoretical insights.
  • Impact: Highlights the potential of covalent frameworks for environmental remediation and water purification.

2. Removal of azo dye from aqueous solution by a low-cost activated carbon prepared from coal: adsorption kinetics, isotherms study, and DFT simulation

  • Authors: Saeed Ullah Jan, Aziz Ahmad, Adnan Ali Khan, Saad Melhi, Iftikhar Ahmad, et al.
  • Journal: Environmental Science and Pollution Research
  • Year: 2020
  • Citations: 58
  • Abstract: The research investigates the use of coal-derived activated carbon for the removal of azo dyes from water. Combining adsorption kinetics and density functional theory (DFT) simulations, the study provides a comprehensive understanding of the adsorption mechanism.
  • Impact: Showcases cost-effective and efficient methods for wastewater treatment.

3. DFT investigation of adsorption of nitro-explosives over C₂N surface: Highly selective towards trinitro benzene

  • Authors: Sehrish Sarfaraz, Muhammad Yar, Adnan Ali Khan, Rashid Ahmad
  • Journal: Journal of Molecular Liquids
  • Volume: 352, Article 118652
  • Year: 2022
  • Citations: 46
  • Abstract: This study examines the adsorption properties of a C₂N surface for nitro-explosives, particularly trinitro benzene. The results demonstrate the material’s high selectivity and potential for explosive detection.
  • Impact: Contributes to the development of advanced materials for sensing and security applications.

4. Investigation of the photocatalytic potential enhancement of silica monolith decorated tin oxide nanoparticles through experimental and theoretical studies

  • Authors: Idrees Khan, Adnan Ali Khan, Ibrahim Khan, Muhammad Usman, et al.
  • Journal: New Journal of Chemistry
  • Volume: 44, Pages 13330
  • Year: 2020
  • Citations: 43
  • Abstract: This paper focuses on the enhancement of photocatalytic properties of silica monoliths decorated with tin oxide nanoparticles. Experimental and theoretical studies validate the material’s efficiency in environmental remediation.
  • Impact: Advances the application of nanostructured materials for photocatalysis.

5. Influence of electric field on CO₂ removal by P-doped C₆₀-fullerene: A DFT study

  • Authors: Adnan Ali Khan, Iftikhar Ahmad, Rashid Ahmad
  • Journal: Chemical Physics Letters
  • Year: 2020
  • Citations: 40
  • Abstract: The study investigates the role of an external electric field in enhancing CO₂ adsorption on phosphorus-doped C₆₀-fullerenes. The findings provide insights into improving adsorption efficiency using computational chemistry techniques.
  • Impact: Demonstrates innovative approaches for CO₂ capture and environmental sustainability.

Conclusion

Dr. Adnan Ali Khan is a strong and deserving candidate for the Young Scientist Award. His expertise in applied chemistry, particularly in computational approaches for energy storage, has led to impactful contributions that address global challenges in energy and sustainability. With his robust publication record, innovative methodologies, and early career accomplishments, he exemplifies the qualities sought in an award-winning scientist.

By focusing on global collaborations, leadership in research funding, and industrial applications, Dr. Khan can further solidify his position as a leader in his field and continue to make transformative contributions to science and society.