Xavier University of Louisiana - United States
AUTHOR PROFILE
SCOPUS
EARLY ACADEMIC PURSUITS 🎓
Kashinath Lellala’s academic journey began with his M.Sc. in Physics from Kakatiya University, Warangal, Telangana, India, in 2007, where he specialized in electronics. Following this, he pursued an M. Phil. in Physics from Alagappa University, India, in 2013, focusing on thin films and nanotechnology. His research on graphene, particularly in the synthesis and characterization of single-layered graphene by chemical exfoliation, laid the foundation for his future work in nanomaterials. He earned his Ph.D. in Materials Science from the University of Mysore, India, in 2018, under the guidance of Professor K. Byrappa. His doctoral thesis focused on the fabrication and processing of hybrid metal oxide/metal sulfide-graphene oxide nanocomposites and their potential applications in energy and environmental sectors.
PROFESSIONAL ENDEAVORS 💼
Dr. Lellala has accumulated significant professional experience in both research and teaching. With over 12 years of teaching experience and 9 years of research experience, he has collaborated with various academic and industrial teams to develop advanced materials for energy and environmental applications. His work has encompassed the design and synthesis of efficient catalysts, heterojunction materials for fuel cells, and anode/cathode materials for batteries. He has been a postdoctoral fellow at prestigious institutions, including Lulea University of Technology and the University of South Australia, where he furthered his research in nanomaterials. Currently, he holds multiple editorial board memberships for international journals, showcasing his commitment to the academic community.
CONTRIBUTIONS AND RESEARCH FOCUS 🔬
Dr. Lellala’s research contributions focus on developing advanced functional materials, particularly for energy and environmental applications. His work involves the fabrication of hybrid nanocomposites, combining metal oxides and metal sulfides with graphene oxide, to improve efficiency in various catalytic processes, including photo/electro catalysis, fuel cell reactions, and hydrogen evolution. His research into heterojunction materials for water splitting and energy storage devices, such as Energy and environmental applications batteries, aims to enhance the performance and sustainability of clean energy systems. Through computational work and experimental synthesis, he continues to push the boundaries of materials science in the context of renewable energy.
ACCOLADES AND RECOGNITION 🏆
Dr. Lellala has been recognized for his contributions to materials science and interdisciplinary research. He was awarded the EMINET Educator Award-2020 by the Forum of Interdisciplinary Research in Mathematical Sciences, India, for his exceptional teaching contributions. In 2020, he received a Certificate of Appreciation for his valuable contributions as a reviewer for the Journal of Cleaner Production. Furthermore, he was honored with the prestigious Caryl Trigger Research Foundation Energy and environmental applications Postdoctoral Fellowship at Lulea University of Technology, Sweden. These accolades highlight his excellence in both research and teaching within his field.
IMPACT AND INFLUENCE 🌍
Dr. Lellala’s work has had a significant impact on the field of materials science, particularly in the development of nanomaterials for clean energy applications. His contributions to the fabrication of hybrid nanocomposites have led to advancements in energy storage and conversion technologies. By advancing the understanding of heterojunction materials and catalysts, his research is contributing to the reduction of energy consumption and the improvement of sustainable technologies. His Energy and environmental applications work is influencing the scientific community’s approach to energy materials, particularly in the context of environmental sustainability.
LEGACY AND FUTURE CONTRIBUTIONS 🌟
Looking ahead, Dr. Lellala aims to continue his research on advanced materials for energy applications, particularly in the areas of hydrogen storage, fuel cells, and battery technologies. His work in the integration of nanomaterials for efficient catalytic processes and energy storage devices positions him at the forefront of clean energy solutions. By advancing the scalability and commercial viability of these materials, Dr. Lellala hopes to contribute to the development of sustainable energy solutions that can have a lasting positive impact on global energy systems. His future contributions will likely shape the next generation of energy materials and their applications, advancing both scientific and technological progress in the field.
NOTABLE PUBLICATIONS
- Title: Ceria Boosting on In Situ Nitrogen-Doped Graphene Oxide for Efficient Bifunctional ORR/OER Activity
Authors: Kashinath, L., Byrappa, K.
Journal: Frontiers in Chemistry, 2022, 10, 889579
- Title: One-pot microwave synthesis of SnSe and Lanthanum doped SnSe nanostructure with direct Z scheme pattern for excellent photodegradation of organic pollutants
Authors: Govindan, V., Kashinath, L., Geetha, G.V., Ramasamy, P., Sankaranarayanan, K.
Journal: Ceramics International, 2022, 48(9), pp. 12228–12239
- Title: Electrochemical deposition of Si nano-spheres from water contaminated ionic liquid at room temperature: Structural evolution and growth mechanism
Authors: Vanpariya, A., Lellala, K., Bhagat, D., Mukhopadhyay, I.
Journal: Journal of Electroanalytical Chemistry, 2022, 910, 116175
- Title: Sulfur embedded on in-situ carbon nanodisc decorated on graphene sheets for efficient photocatalytic activity and capacitive deionization method for heavy metal removal
Authors: Lellala, K.
Journal: Journal of Materials Research and Technology, 2021, 13, pp. 1555–1566
- Title: Microwave-Assisted Facile Hydrothermal Synthesis of Fe3O4-GO Nanocomposites for the Efficient Bifunctional Electrocatalytic Activity of OER/ORR
Authors: Lellala, K.
Journal: Energy and Fuels, 2021, 35(9), pp. 8263–8274