Innovative Research Award
| Sobin Mathew | |
|---|---|
| Affiliation | Christ University |
| Country | India |
| Scopus ID | 57221392766 |
| Documents | 17 |
| Citations | 184 |
| h-index | 8 |
| Subject Area | Energy |
| Event | International Chemical Scientist Awards |
| ORCID | 0000-0003-3673-8237 |
Sobin Mathew
Christ University, India
Sobin Mathew is an academic researcher whose scholarly work focuses on the field of energy science. His publications emphasize sustainable energy technologies, advanced materials, and innovative engineering solutions that contribute to improving energy efficiency and supporting environmentally responsible scientific development.[1]
Abstract
Sobin Mathew has contributed to energy-related research through peer-reviewed publications addressing sustainable technologies, materials, and engineering applications. His scientific work supports improved understanding of efficient energy systems while encouraging interdisciplinary collaboration and practical solutions for future energy challenges.[1][2]
Keywords
Energy, Sustainable Energy, Renewable Technologies, Advanced Materials, Engineering Research, Energy Efficiency, Scientific Innovation, Clean Energy.
Introduction
Energy research plays a significant role in addressing global sustainability challenges through technological innovation and resource efficiency. Sobin Mathew’s academic activities contribute to this evolving field by investigating practical scientific approaches that support cleaner, efficient, and reliable energy systems for future development.[1][3]
Research Profile
Affiliated with Christ University, Sobin Mathew has produced seventeen indexed publications and achieved a notable citation record. His research interests encompass sustainable energy, advanced engineering materials, and innovative technologies that promote scientific progress through multidisciplinary collaboration and evidence-based investigation.[1][2]
Research Contributions
The research contributions of Sobin Mathew include investigations into energy-efficient technologies, sustainable engineering methods, and material optimization. These studies provide valuable scientific insights, support innovation in energy applications, and encourage continued development of environmentally responsible technological solutions.[2][3]
Publications
The researcher has authored seventeen Scopus-indexed publications covering energy science and related engineering disciplines. These scholarly articles demonstrate consistent academic productivity and have received citations from researchers working in sustainable energy, environmental science, and technology innovation.[1][2]
Research Impact
With 184 citations and an h-index of eight, Sobin Mathew’s publications demonstrate measurable scholarly influence. His research findings have contributed to ongoing academic discussions while supporting further investigations into sustainable energy technologies and engineering innovations across multidisciplinary scientific communities.[1][3]
Award Suitability
Sobin Mathew’s publication record, research impact, and commitment to advancing energy science align with the objectives of the Innovative Research Award. His scholarly achievements demonstrate scientific quality, originality, and continued contributions that support progress in sustainable technological research.[1][4]
Conclusion
Sobin Mathew has established a credible academic profile through sustained research, quality publications, and measurable scholarly influence within energy science. His scientific contributions continue supporting innovation, interdisciplinary collaboration, and the advancement of sustainable technologies suitable for international academic recognition.[1][2][4]
External Links
References
- Elsevier. (n.d.). Scopus author details: Sobin Mathew, Author ID 57221392766. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=57221392766
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Mathew, S., Sim, J.-H., Rajmohan, R., Li, O. L., & Cho, Y.-R. (2022). Defect-rich CoMoS nanosheets on PANI nanowires as excellent hybrid electrocatalyst for water splitting. Electrochimica Acta, 403, 139586.
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Kim, M., Kim, J., Qin, L., Mathew, S., Han, Y., & Li, O. L. (2022). Gas-liquid interfacial plasma engineering under dilute nitric acid to improve hydrophilicity and OER performance of nickel foam. Progress in Natural Science: Materials International, 32(5), 608–616
- International Chemical Scientist Awards.