Dr Eswaramoorthi Thiruganasambandam, Henan university, China
Dr. Eswaramoorthi Thiruganasambandam is a rising research scientist in the field of electrochemical energy storage. He currently serves as a Postdoctoral Researcher at the College of Chemistry and Molecular Sciences, Henan University, China. Dr. Eswaramoorthi holds a Ph.D. in Chemistry from SRM Institute of Science and Technology, where he developed advanced metal-based electrode materials for energy storage. His core expertise lies in inorganic materials, MOF-derived electrocatalysts, redox electrolytes, and biomass-activated carbons for supercapacitors, batteries, and fuel cells. He possesses hands-on experience with high-end analytical tools like XRD, BET, and electrochemical workstations. With 10+ impactful publications in reputed ACS and Elsevier journals, he has significantly contributed to the development of cost-effective and sustainable electrochemical energy devices. Dr. Eswaramoorthi is recognized for his scientific curiosity, commitment to sustainable energy solutions, and collaborative research approach, making him an outstanding candidate for the Best Researcher Award.
Publication Profile
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Education
Dr. Eswaramoorthi’s academic foundation is deeply rooted in chemistry and energy materials. He earned his Ph.D. in Chemistry in 2022 from SRM Institute of Science and Technology, Tamil Nadu, with a specialization in the development of metal-based electrode materials for energy storage systems. Prior to that, he completed his M.Sc. in Chemistry in 2018 from A.V.C. College of Arts and Science, affiliated with Bharathidasan University, securing a CGPA of 6.9. He began his scientific journey with a B.Sc. in Chemistry from the same institution in 2016 with a CGPA of 5.3. His academic progression reflects consistent growth, culminating in his current postdoctoral position at Henan University, China, where he explores metal-organic frameworks (MOFs), electrocatalysis, and redox reactions for renewable energy applications. His solid academic background and continuous pursuit of advanced knowledge have shaped him into a promising researcher in the electrochemistry domain.
Experience
Dr. Eswaramoorthi currently holds a postdoctoral research position at the College of Chemistry and Molecular Sciences, Henan University, China (2025–present), focusing on MOF-derived electrocatalysts and redox electrolytes. During his Ph.D. at SRM Institute of Science and Technology (2018–2022), he investigated the design and synthesis of energy storage materials and successfully fabricated high-performance supercapacitor devices. Over the years, he has cultivated deep expertise in inorganic chemistry, electrochemistry, and energy materials. His research encompasses the development of advanced electrodes, redox mediators, and polymer-based systems for energy conversion devices, including batteries, supercapacitors, and fuel cells. He is adept in characterization techniques such as XRD, FT-IR, BET, and electrochemical workstations. His interdisciplinary approach bridges chemistry, materials science, and engineering, and his ability to work both independently and collaboratively across international labs highlights his adaptability and commitment to innovation in sustainable energy technologies.
Awards and Honors
Dr. Eswaramoorthi has emerged as a notable contributor to electrochemical energy research, although no formal awards are listed in the current record. However, his achievements are reflected in the high-impact publications and international collaborations. Publishing multiple first-author papers in prestigious ACS journals such as ACS Inorganic Chemistry, ACS Energy & Fuels, and ACS Applied Energy Materials, he has gained significant recognition in the field. His postdoctoral position at Henan University, China, further attests to his scholarly excellence and international appeal. His work is increasingly cited, reflecting its impact and relevance in the domains of energy storage and conversion. While early in his postdoctoral career, his scientific trajectory suggests future honors, including best paper awards and grant recognitions. His consistent publication record, technical capabilities, and collaborative spirit are foundational achievements worthy of recognition under the Best Researcher Award.
Research Focus
Dr. Eswaramoorthi’s research centers on advanced electrochemical energy storage and conversion materials. His primary focus includes the synthesis of inorganic and MOF-derived materials, biomass-derived activated carbons, and redox-active electrolytes for next-generation energy devices. He designs high-efficiency electrodes and electrolytes for applications in supercapacitors, rechargeable batteries, polymer electrolyte fuel cells, and water splitting systems including OER, HER, ORR, and CO₂RR. He also explores redox-couple-aided hybrid systems, aiming to synergize electrode and electrolyte interactions to boost energy density and device stability. His work is grounded in sustainability, often incorporating biomass waste into functional materials. Methodologically, he employs a combination of materials synthesis, electrochemical performance evaluation, and structural characterization. By innovating at the intersection of materials chemistry and electrochemical engineering, Dr. Eswaramoorthi is contributing to cleaner, high-performance energy technologies, supporting global transitions toward renewable energy infrastructures.
Publication Top Notes
Effect of an aqueous copper gel electrolyte with cobalt metal organic framework based additive on performance of aqueous-dye-sensitized solar cells
Thin niobium and iron–graphene oxide composite metal–organic framework electrodes for high performance supercapacitors
Energy Enhancement of a Nickel–Cobalt-Mixed Metallic Metal–Organic Framework Electrode and a Potassium Iodide Redox Mediator Bound with an Aqueous Electrolyte for High …
Innovative Construction of the Cobalt Metal Complex Redox Electrolyte and Octahedron Structure of the Cobalt Metal Organic Framework Electrode in the Energy Storage and Energy …
Performance of 4-Subsituted Pyridine Based Additive and Cobalt Redox in Poly (ethylene glycol)–Hydroxyethylcellulose Polymer Electrolytes with DTTCY Acid Sensitizer on Dye …
Tweaking the Efficiency of Asymmetric Hybrid Supercapacitors with Mechanochemically Synthesized Mixed‐Metal–Organic Framework‐Derived Metal Oxides
A Newly Synthesized Copper Redox Couple Electrolyte with Activated Carbon Electrode from Samanea saman Wood Tissue for Flexible Supercapacitor