Dr S. Sriram

Dr. S. SRIRAM M.Sc., Ph.D

About Dr. S. SRIRAM

Dr. S. SRIRAM earned his Doctorate of Philosophy from the Department of Chemistry, at Annamalai University, Tamil Nadu in 2024. His research interest is to develop innovative, eco-friendly, cost-effective innovations to the society. Currently his research work is focusing on addressing the energy crisis through sustainable manner, utilizing renewable energy as a power source, and developing wearable and portable point of care devices by using electrochemical sensors.

Research experience

·   Ph.D. Research scholar (Jan 2021 - May 2024) - Annamalai University

·       Reviewer for the Royal Society of Chemistry (RSC), contributing to the peer review process of the research articles.

Awards/Honors

• He got the University Research Studentship (URS) award during his doctoral research program.

• He won the best presentation award in International Conference on Green Energy Materials (GEM MEET-2024).

• Co-Principal Investigator in MSME projects regarding wearable electrochemical sensors and generating green hydrogen.

Research Area /Interest

• Nanomaterials, Electrochemical technology, Energy technology, Electrochemical Sensors, and Wearable and portable electrochemical point of care devices.

Publications

• Giddaerappaa, Sundarraj Sriram, et al.  Efficient Water Oxidation Using Non-Precious Macrocycle-Embedded Carbon on Nickel Foam Sustainable Energy & Fuels, 2025, 9, 3646-3658.

• Sundarraj Sriram, et al. Ultrathin cobalt phosphate enfolded with biomass-derived multishelled carbon onion as a proficient electrocatalyst for the oxygen evolution reaction and its green sustainability assessments, RSC New Journal of Chemistry, 47, 19210-19222.

• Sundarraj Sriram, et al. Solution combusted ultrathin Co3O4/CoO heterophase electrocatalyst for solar‐energy driven bifunctional water electrolysis, Wiley ChemistrySelect, 2023, 8, 202301402.

• Sundarraj Sriram, et al. Entwined Co(OH)2 In Situ  Anchoring on 3D Nickel Foam with Phenomenal Bifunctional Activity in Overall Water Splitting. ACS Energy & Fuels, 2022, 36, 7006-7016.

• Sundarraj Sriram, et al. Ultra‐Durability and Enhanced Activity of Amorphous Cobalt Anchored Polyaniline Synergistic towards Electrocatalytic Water Oxidation. Wiley ChemistrySelect, 2022, 7, 202104516.

• Bakthavachalam Vishnu, Sundarraj Sriram, et al. Greenly synthesised   NCF-LDH as a sustainable electrocatalyst for oxygen evolution reaction with low cell voltage. Catalysis Communications, 2024,106878.

• Bakthavachalam Vishnu, Sundarraj Sriram, et al. A green synthetic approach: Crystalline-amorphous interface CoFe-LDH as a sustainable electrocatalyst for water oxidation with low cell voltage and evaluation of its sustainability standards, RSC Sustainable Energy Fuels, 2023. 7, 4638-4653.

• Bakthavachalam Vishnu, Sundarraj Sriram, et al. Green synthesis of fusiform-shaped Fe-PANI as a phenomenal dual electrocatalyst for overall water splitting and assessment of its sustainability standards, RSC New Journal of Chemistry, 2023, 47, 5977-5990. 

• Bakthavachalam Vishnu, Selvam Mathi, Sundarraj Sriram, et al.  Greenly Reduced CoFe-PBA/Nickel Foam: A Robust Dual Electrocatalyst for Solar-Driven Alkaline Water Electrolysis with a Low Cell Voltage, Wiley ChemistrySelect, 7, 2022, 202201682.

• Bakthavachalam Vishnu, Selvam Mathi, Sundarraj Sriram, et al.  Green Reduction of Cobalt Ferrocyanide with Excellent Electrocatalytic Activity toward the Oxygen Evolution Reaction, ACS Energy & Fuels, 2022, 36, 1654-1664.

• Jayaraman Jayabharathi, Balakrishnan Karthikeyan, Bakthavachalam Vishnu, Sundarraj Sriram, Research on engineered electrocatalysts for efficient water splitting: a comprehensive review, Physical Chemistry Chemical Physics, 2023, 25, 8992-9019.

• Graphene-Metal Oxide Composites: Synthesis, Properties, and Applications, https://doi.org/10.1039/9781837673391.

   G mail : sriramak1998@gmail.com

Research Gate: https://www.researchgate.net/profile/Sundarraj-Sriram

Google Scholar: https://scholar.google.com/citations?user=kJkP6KYAAAAJ&hl=en