Rakesh Parida | Energy Storage | Best Researcher Award

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Dr. Rakesh Parida | Energy Storage | Best Researcher Award

Researcher | Sungkyunkwan University | South Korea

Dr. Rakesh Parida is an Indian chemist specializing in theoretical and computational chemistry, currently serving as a Postdoctoral Researcher in the Department of Chemistry at Sungkyunkwan University, South Korea, under the supervision of Prof. Jin Yong Lee. His research integrates density functional theory (DFT) and molecular dynamics (MD) simulations to investigate superalkalis, superhalogens, energy storage materials, biomolecular interactions, and small-molecule activation. He earned his Ph.D. from the National Institute of Technology Rourkela, India, with distinction, focusing on the design and applications of super-alkali/halogen complexes and reaction mechanisms. Over the years, Dr. Parida has significantly contributed to computational modeling of advanced materials for energy storage and biophysical systems. research publications in high-impact journals, editorial board membership, international collaborations, and active participation in conferences, he has established himself as a promising scientist in molecular modeling, energy materials, and computational chemical reactivity theory.

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Education

Dr. Rakesh Parida earned his Ph.D. in Theoretical and Computational Chemistry from the National Institute of Technology (NIT) Rourkela, India, in April , securing an excellent. His doctoral thesis, supervised by Prof. Madhurima Jana and Prof. Santanab Giri, centered on a combined density functional theory and molecular dynamics approach to study the design and application of super-alkali/halogen complexes and reaction mechanisms. Before his doctorate, he completed his M.Sc. in Chemistry at Berhampur University, conducting research on “Quality Control Analysis of Sillimanite” under Dr. Satyanarayan Sahoo. His academic journey began with a B.Sc. in Chemistry (Hons.), Physics, and Mathematics from RCM Science College, Khallikote, Odisha, completed in  with a strong foundation in honors papers. His consistent academic excellence and training have shaped his expertise in computational chemistry, materials design, and molecular interactions.

Experience

Currently, Dr. Rakesh Parida works as a Postdoctoral Researcher at Sungkyunkwan University, South Korea focusing on computational modeling of advanced materials and biomolecular interactions under Prof. Jin Yong Lee. During his doctoral training at NIT Rourkela, he was actively engaged in research projects funded by the Department of Science and Technology (DST) in areas such as chemical reaction mechanisms, metal and organo-Zintl clusters, and biomolecular dynamics. He also gained teaching experience as a Teaching Assistant, conducting courses such as General Chemistry, Inorganic Chemistry, Group Theory, Physical Chemistry Lab, and Computational Chemistry Laboratory for undergraduate and postgraduate students. Additionally, he managed laboratory work for B.Tech and M.Sc. programs and mentored five postgraduate students, many of whom are now pursuing Ph.D.s at reputed international universities. His academic journey reflects a blend of advanced research, teaching, and mentoring in computational and theoretical chemistry.

Research Focus

Dr. Rakesh Parida’s research integrates density functional theory (DFT) and molecular dynamics (MD) simulations to explore advanced molecular systems and energy materials. He has designed superalkali complexes based on benzene, borazine, Cu3, and Au3 frameworks, studied Brønsted and Lewis acids from functionalized heterocycles, and modeled frustrated Lewis pairs for small-molecule activation. His computational studies extend to boron-based anion receptor additives for Li-ion batteries, force field generation for unknown atoms, and CO2 reduction pathways. He has analyzed the alkylation processes of Zintl clusters, investigated graphdiyne as an anode material, and studied heterostructures like MXene/borophene for next-generation energy storage. His biophysical work includes examining histidine tautomerism in amyloid-β proteins on Au surfaces to understand Alzheimer’s disease mechanisms. His research contributes to material design for batteries, catalytic activity, biomolecular interactions, and conceptual DFT, bridging fundamental chemical theory with real-world applications in energy storage and biomedicine.

Awards and Honors

Dr. Rakesh Parida has received numerous recognitions for his outstanding research contributions. He was awarded the Juan de la Cierva Scholarship by the Spanish Ministry of Science and the Ultra-High Performance Computing R&D Innovation Support Program from KISTI . His early achievements include qualifying the  with an All-India  examination. He was conferred the InSc Young Researcher Award for his impactful research in theoretical and computational chemistry. He also received DST-SERB Junior Research Fellowship and DST-BRNS Senior Research Fellowship during his Ph.D. training. His editorial contributions include serving as a Board Member for the International Journal of Computational and Theoretical Chemistry since. In addition, he is an active member of the Korean Chemical Society, regularly presenting his research at national and international conferences. These honors reflect his global recognition as an emerging scientist.

Publication Top Notes

On the making of aromatic organometallic superalkali complexes
Year: 2018
Citation: 45

Superalkali ligands as a building block for aromatic trinuclear Cu (i)–NHC complexes
Year: 2019
Citation: 39Solvent free synthesis of ferrocene based rhodamine–hydrazone molecular probe with improved bioaccumulation for sensing and imaging applications
Year: 2019
Citation: 29

Conclusion

Dr. Rakesh Parida’s impressive research experience, publication record, awards, and research funding make him a strong candidate for the Best Researcher Award. With some additional interdisciplinary collaboration, global impact, and research translation, he could further solidify his position as a leading researcher in his field.

Sivagaami Sundari Gunasekaran | Energy Storage | Best Researcher Award

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Assist. Prof. Dr. Sivagaami Sundari Gunasekaran | Energy Storage | Best Researcher Award

Assistant Professor Research | B.S. Abdur Rahman Crescent Institute of Science and Technology | India

Dr. Sivagaami Sundari Gunasekaran is an accomplished researcher and academic specializing in electrochemistry, nanomaterials, and advanced energy storage technologies. Currently serving as an Assistant Professor (Research) at B.S. Abdur Rahman Crescent Institute of Science and Technology, Chennai, she has made significant contributions to the development of novel electrodes, supercapacitors, lithium-ion batteries, and hybrid energy devices. With extensive experience across academia, research institutes, and industry, she has collaborated with leading organizations in India and abroad, including the Indian Institute of Technology Hyderabad and Kyung Hee University, South Korea. Dr. Gunasekaran’s research spans material synthesis, electrode design, electrochemical energy conversion, and flexible energy storage technologies for next-generation applications. She has authored numerous publications in high-impact international journals, holds patents on advanced electrode materials, and has played a key role in sponsored research projects. Recognized with prestigious awards for research excellence, she continues to drive innovation in sustainable energy materials.

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Education

Dr. Sivagaami Sundari Gunasekaran pursued her academic career with a strong foundation in chemistry and electrochemistry. She completed her Bachelor of Science in Chemistry (Specialization in Cheminformatics) at Madurai Kamaraj University, followed by a Master of Science in Chemistry (Electrochemistry) from Thiruvalluvar University, Vellore. Her academic journey culminated with a Ph.D. in Chemistry (Electrochemistry) from Vels Institute of Science, Technology and Advanced Studies (VISTAS), Chennai, Her doctoral research focused on the synthesis of nanostructured carbon and electrode materials for electrochemical energy storage devices, integrating principles of nanotechnology, electrochemistry, and sustainable materials. Throughout her education, she gained expertise in advanced synthesis techniques, electrochemical testing, and device fabrication, laying a strong foundation for her later contributions to batteries, supercapacitors, and hybrid systems. Her academic training reflects a balance of theoretical understanding and hands-on laboratory expertise in materials science and electrochemical energy research.

Experience

Dr. Gunasekaran has over a decade of multidisciplinary experience in research, teaching, and industry, particularly in energy storage materials and devices. She began her career as a Research Associate at Alagappa University, working on advanced electrodes for energy storage systems, followed by positions at IIT Hyderabad focusing on electrodes for supercapacitors and flexible devices. She later worked as Quality and Technical Support Executive at Dupont/Celanese Corporations, where she gained expertise in quality assurance, testing, and industrial standards. Returning to academia, she advanced as Research Associate and then Assistant Professor (Research) at B.S. Abdur Rahman Crescent Institute of Science and Technology, contributing to Li/Na-ion batteries, supercapacitors, and electrochemical sensors. She is also a Visiting Research Scientist at Kyung Hee University, South Korea, working on sustainable electrode materials. Her roles have combined project leadership, collaboration with industry, training students, and delivering impactful research in nanomaterials and electrochemical energy systems.

Research Focus

Dr. Gunasekaran’s research is centered on advanced materials for sustainable electrochemical energy storage and conversion. Her work spans the design and development of electrode and electrolyte systems for lithium-ion batteries, sodium-ion batteries, supercapacitors, and hybrid energy devices. She specializes in nanostructured carbon materials, polymer nanocomposites, bio-derived materials, and redox-active electrolytes, focusing on their role in improving energy density, cycling stability, and safety. She is also engaged in the development of flexible and wearable energy storage technologies, aligning with the growing demand for portable electronics and electric vehicles. Her projects include industrial collaborations on graphene-based electrodes, bio-inspired nanomaterials, and hybrid solid-state batteries. She combines advanced synthesis techniques such as hydrothermal processing, electrodeposition, and chemical vapor deposition with state-of-the-art characterization and electrochemical testing. Her ultimate research vision is to create low-cost, scalable, and environmentally sustainable energy solutions, bridging fundamental science with real-world applications for clean and renewable technologies.

Awards and Honors

Dr. Sivagaami Sundari Gunasekaran has received multiple prestigious awards recognizing her outstanding contributions to research and innovation. she was honored with the Best Women Researcher Award by KSR College of Arts and Science for Women during the International Conference on Nanotechnology and Material Science The same year, she received the Best Researcher Award from the International Journal of Microbial Science and My Rays Publication Center, India. Her excellence in scientific contributions was further acknowledged through the Research Excellence Award from the Social Development Federation, Uttar Pradesh. These distinctions reflect her leadership in advancing electrochemical energy storage technologies, her impactful publications in reputed journals, and her ability to bridge academic research with industrial applications. Alongside awards, her role as organizing secretary and invited speaker at international conferences underscores her recognition within the global scientific community, highlighting her as a rising leader in sustainable energy materials.

Publication Top Notes

High-performance solid-state supercapacitor based on sustainable synthesis of meso-macro porous carbon derived from hemp fibres via CO2 activation

Cited By: 76
Year: 2021
Single step, direct pyrolysis assisted synthesis of nitrogen-doped porous carbon nanosheets derived from bamboo wood for high energy density asymmetric supercapacitor
Cited By : 75
Year: 2021

Partially graphitic nanoporous activated carbon prepared from biomass for supercapacitor application

Cited By : 65
Year: 2018

Phytogenic generation of NiO nanoparticles as green-electrode material for high performance asymmetric supercapacitor applications

Cited By 61
Year: 2021

Conclusion

Dr. Sivagaami Sundari Gunasekaran’s impressive research experience, publication record, and patents make her a strong candidate for the Best Researcher Award. Her awards and recognition further demonstrate her capabilities. With some additional interdisciplinary collaboration, global impact, and research funding, she could further solidify her position as a leading researcher in her field.