RESEARCH INTERESTS

Iron redox flow battery, Vanadium redox flow battery, Supercapacitors, Li-ion capacitors

Education

2017 – 2022: PhD Chemistry, Visvesvaraya Technological University, Karnataka, India.
2015 – 2017: MSc Chemistry, Mangalore University, Karnataka, India.

Experience

Project Assistant

July 2017 – 22

Centre for Incubation, Innovation, Research and Consultancy (CIIRC), Bangalore

Development of low-cost iron based redox flow battery for grid level application

https://dst.gov.in/document/reports/success-stories-materials-energy-storage-mes

Publications

• 1. Anarghya D, Sharon Olivera, Krishna Venkatesh, Santosh MS, Geetha Priya M, Abdullah M Asiri, and Muralidhara HB. “Iron-Based Flow Batteries to Store Renewable Energies.” Environmental Chemistry Letters (2018): 1-12

  2. Anantha MS, Anarghya D, Chunyan Hu, Narendra Reddy, Krishna Venkatesh, and Muralidhara HB. “Enhancing the Electrochemical and Cyclic Performance of IRFBs through Electrode Modification Using Novel MnO2@ CeO2 Composite.” Journal of Materials Science: Materials in Electronics (2020): 1-10.

  3. Anarghya D, Anantha MS, Krishna Venkatesh, Santosh MS, Geetha Priya M, and Muralidhara HB. “Bermuda Grass Derived Nitrogen-Doped Carbon as Electrocatalyst in Graphite Felt Electrode to Increase the Efficiency of All‑Iron Redox Flow Batteries.” Journal of Electroanalytical Chemistry (2020): 114577.

  4. Anantha MS, Anarghya D, Chunyan Hu, Narendra Reddy, Krishna Venkatesh, and Muralidhara HB. “Electrochemical Performance of Graphene Oxide Modified Graphite Felt as a Positive Electrode in All-Iron Redox Flow Batteries.” Journal of Applied Electrochemistry 51, no. 2 (2021): 331-44.

  5. Anantha MS, Kiran Kumar SR, Anarghya D, Krishna Venkatesh, Santosh MS, Yogesh Kumar K, and Muralidhara HB. “ZnO@MnO2 Nanocomposite Modified Carbon Paste Electrode for Electrochemical Detection of Dopamine.” Sensors International (2021): 100087.

  6. Anarghya D, Anantha MS, Santosh MS, Geetha Priya M, Krishna Venkatesh, Yogesh Kumar K, Raghu MS, and Muralidhara HB. “Improved Performance of Iron-Based Redox Flow Batteries Using WO3 Nanoparticles Decorated Graphite Felt Electrode.” Ceramics International (2020).

  7. Anantha MS, Anarghya D, Ashoka S, Shreenivasa L, Viswanatha R, Krishna Venkatesh, Yogesh Kumar K, and Muralidhara HB. “One-Pot Synthesis of Novel Molybdenum Disulfide–Graphene Oxide Nanoarchitecture: An Impeccable Bifunctional Electrode for the Electrochemical Performance of Iron Redox Flow Batteries and Oxygen Evolution Reaction.” Energy & Fuels (2021).

  8. Anarghya D, Anantha MS, Santosh MS, Narendra Kumar M, Krishna Venkatesh, and Muralidhara HB. “Nitrogen-Doped Carbon Spheres-Decorated Graphite Felt as a High-Performance Electrode for Fe Based Redox Flow Batteries.” Diamond and Related Materials (2021): 108413.

  9. Aditya R, Anarghya D, Shilpi S, Manab K, Krishna Venkatesh, and Muralidhara HB. “Carbon Spheres Decorated-Graphene Oxide Framework as an Excellent Active Material for Redox Flow Battery and Supercapacitors.” Environmental Technology, no. just-accepted (2022): 1-24.

  10. Anantha MS, Anarghya D, Manab K, Manviri Rani, Krishna Venkatesh, raghu MS, yogesh Kumar K, Muralidhara HB. “Single step assemble of cerium oxide embellished on layered graphene oxide: An efficacious electrode for supercapacitors and hydrogen evolution reaction” Materials Science and Engineering: B 284 (2022): 115924.

  11. Anarghya D, Aditya R, Anantha MS, Minchitha KU, Krishna Venkatesh, Manab Kundu, Muralidhara HB., Yogesh Kumar K Kumar, “Synergistic behavior of vanadium pentoxide-carbon sphere electrocatalyst towards iron-based redox flow battery and supercapacitor applications” Journa of Energy Storage 55 (2022): 105487.