Dr Himadri Tanaya Das | Energy storage | Best Researcher Award

Utkal University- India

Author Profile

đź“šEarly Academic Pursuits

Dr. Himadri Tanaya Das’s academic journey is marked by a passion for science and a dedication to excellence. Born and raised in Bhadrak, Odisha, Dr. Das excelled in her early education, securing a remarkable 91% in her 10th class examinations from Bhadrak Junior College, where she studied a diverse range of subjects including Physics, Chemistry, Biology, and Mathematics. Her higher secondary education, completed in 2008 with a first division at the same institution, solidified her interest in the sciences.Her pursuit of higher education began with a B.Sc. in Physics, Chemistry, Mathematics, and Biology from Bhadrak Autonomous College, where she graduated with an impressive 85% in 2013. This achievement was followed by an M.Sc. in Physics with a specialization in Condensed Matter Physics from Pondicherry University, where she graduated with distinction, securing a CGPA of 8.2 out of 10 in 2015. Dr. Das’s academic foundation was further strengthened by a Ph.D. in Physics with a focus on Green Energy Technology from a prestigious institution, where her thesis, titled “Nickel Oxide-based Hybrid Energy Storage Devices: Tuning the Energy Density and Power Density,” set the stage for her future research endeavors.

🛠️Professional Endeavors

Dr. Himadri Tanaya Das’s professional journey is as illustrious as her academic one. She currently holds the position of Scientist at the Centre of Advanced Materials and Applications (CAMA) at Utkal University, Vanivihar, Bhubaneswar. Her role at CAMA involves cutting-edge research in energy storage and conversion systems, with a particular focus on hybrid energy storage devices. Prior to this, Dr. Das gained invaluable experience as a Postdoctoral Fellow (PDF) at National Taiwan University (NTU) and National Taipei University of Technology (NTUST) in Taiwan, where she worked on various groundbreaking projects, including the development of graphene-based supercapacitors and Li-S solid-state anode-free batteries.

🔬Contributions and Research Focus

Dr. Das’s research is driven by a profound passion for energy storage and conversion systems. Her work aims to enhance the energy density and power density of hybrid energy storage devices, surpassing the capabilities of conventional batteries used in commercial electronics. She focuses on experimentally developing electrodes for batteries and supercapacitors with superior performance metrics. Her team has achieved noteworthy results, which have been published in reputed international journals and patented.In addition to her thesis work, Dr. Das has made significant contributions to environmental sustainability by recycling various waste materials, such as spent batteries and plant wastes, into potential electrode materials. This innovative approach has successfully converted waste into functional energy storage devices, demonstrating their performance in consumer electronics.

🏆Accolades and Recognition

Dr. Himadri Tanaya Das has been recognized for her exceptional contributions to the field of renewable energy and materials science. She has been an invited speaker at numerous national and international conferences, sharing her insights on energy storage, nanomaterials, and their applications. Some of her notable speaking engagements include the RAMC-2021 National Seminar, AICTE-ATAL-FDP-IARE-2021 on Energy Storage, and MEPCO-FDP-2021 on Multifunctional Nanomaterials.Her academic and research excellence has earned her several prestigious roles, including serving as an event organizer for the internship program at Utkal University in 2024 and as a technical advisor for graphene-based product development projects. Her expertise in electrochemical energy storage, water splitting, photocatalysis, and gas sensing has been instrumental in advancing the field of sustainable energy.

🌍Impact and Influence

Dr. Das’s work has had a significant impact on the field of energy storage and conversion, contributing to the development of sustainable and efficient energy solutions. Her research on hybrid energy storage devices and the recycling of environmental waste materials into energy storage solutions has the potential to revolutionize the industry. By focusing on high energy density and power density devices, she aims to meet the growing demand for more efficient and sustainable energy storage technologies.Her dedication to teaching and mentoring the next generation of scientists is also noteworthy. Dr. Das has guided numerous M.Tech, M.Phil, MSc, and Ph.D. students, helping them develop their research skills and contributing to the advancement of knowledge in the field.

🏅Legacy and Future Contributions

Looking ahead, Dr. Himadri Tanaya Das aspires to become a leading figure in renewable energy research, with a particular focus on sustainable environment and affordable clean energy, aligning with the United Nations Sustainable Development Goal 7. Her ongoing work in developing high-performance electrodes and recycling environmental waste materials continues to push the boundaries of what is possible in energy storage and conversion.With a robust academic background, extensive research experience, and a passion for sustainable energy, Dr. Das is poised to make even greater contributions to the field. Her commitment to innovation and excellence will undoubtedly leave a lasting legacy, inspiring future generations of scientists and researchers.

Citations

A total of 980 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        980
  • h-index          47
  • i10-index       18

Notable Publications 

  • Title: Advanced Strategies in Electrode Engineering and Nanomaterial Modifications for Supercapacitor Performance Enhancement: A Comprehensive Review
    Authors: Shah, S.S., Niaz, F., Ehsan, M.A., Oyama, M., Aziz, M.A.
    Journal: Journal of Energy Storage
    Year: 2024
    Volume: 79
    Article Number: 110152
  • Title: Exploring the Bifunctionality of Co3S4/NiS2/Cu2S Heterojunction Nanocomposites for Hybrid Supercapacitors and Double Z-Scheme-Driven Dye Degradation
    Authors: Mohapatra, S., Das, H.T., Chandra Tripathy, B., Das, N.
    Journal: ACS Applied Nano Materials
    Year: 2024
    Volume: 7(3)
    Pages: 3249–3259
  • Title: Advance Technologies in Biodegradable Flexible Solid-State Supercapacitors: A Mini Review on Clean and Sustainable Energy
    Authors: Das, H.T., Balaji T, E., Mohapatra, S., Das, N., Assiri, M.A.
    Journal: Chemical Record
    Year: 2024
    Volume: 24(1)
    Article Number: e202300226
  • Title: Recent Developments in Electrodeposition of Transition Metal Chalcogenides-Based Electrode Materials for Advance Supercapacitor Applications: A Review
    Authors: Mohapatra, S., Das, H.T., Tripathy, B.C., Das, N.
    Journal: Chemical Record
    Year: 2024
    Volume: 24(1)
    Article Number: e202300220
  • Title: Facile Synthesis of Crystalline Molybdenum Carbide (Mo2C) Nanoparticles Coupled with a N-Doped Porous Carbon Sheet: A Synergistic Effect on the Electrocatalytic Hydrogen Evolution Reaction
    Authors: Mondal, A., Das, H.T., Elango Balaji, T., Sinhamahapatra, A., Mandari, K.K.
    Journal: Energy and Fuels
    Year: 2023
Himadri Tanaya Das | Energy storage | Best Researcher Award

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