Dr. Owais Amin: Advancing Energy Storage Through Solid-State Electrolyte Research

Best Researcher Award – Global Sensor Awards

As the world accelerates toward sustainable energy solutions, the demand for safer, more efficient, and environmentally responsible battery technologies continues to grow. Among the emerging researchers contributing to this transformation is Dr. Owais Amin, an Indian physicist and materials scientist whose work in solid-state electrolytes and sodium-ion battery technology is helping shape the future of advanced energy storage systems.

Recognized with the Best Researcher Award at the Global Sensor Awards, Dr. Amin has established himself as a promising scholar in the fields of Physics, Materials Science, and Energy Storage. His research focuses on improving ionic conductivity, thermal stability, and electrochemical performance in next-generation battery materials, contributing to the global pursuit of sustainable energy technologies.

Academic Journey and Research Foundation

Dr. Owais Amin completed his Bachelor of Science in Physics and Mathematics from the University of Kashmir in 2017. Driven by a passion for condensed matter physics and advanced materials, he pursued both his Master of Science and Doctor of Philosophy degrees in Physics at Lovely Professional University, India.

He earned his Ph.D. in 2024 with a dissertation entitled "Effect of Percolation in Solid Electrolyte Composites in Sodium Battery." His doctoral research investigated how microstructural connectivity influences ionic transport in solid electrolyte materials, providing valuable insights into the design and optimization of sodium-ion battery systems.

His academic expertise spans:

• Solid-State Physics

• Condensed Matter Physics

• Materials Science

• Electrochemistry

• Nanotechnology

• Spectroscopy

• Electrodynamics

• Mathematical Physics

• Energy Storage Systems

Pioneering Research in Sodium-Ion Batteries

As concerns over lithium resource availability and battery sustainability increase, sodium-ion batteries have emerged as an attractive alternative for large-scale energy storage. Dr. Amin's research focuses on overcoming critical challenges associated with these technologies, particularly through the development of advanced solid-state electrolyte materials.

His investigations have centered on:

Enhancing Ionic Conductivity

One of the key barriers to high-performance solid-state batteries is achieving efficient ion transport. Dr. Amin has explored innovative material modifications and doping strategies that significantly improve ionic conductivity while maintaining structural stability.

Solid-State Electrolyte Development

His research on sodium β-alumina electrolytes has contributed to understanding how compositional changes and microstructural engineering can enhance battery performance, safety, and durability.

Hybrid Nanocomposite Systems

Dr. Amin has developed polymer-ceramic hybrid nanocomposites, particularly PVDF–sodium β-alumina systems, designed to combine mechanical flexibility with superior electrochemical properties.

Advanced Functional Materials

Beyond batteries, his work extends to graphene-based nanomaterials, spinel ferrites, photocatalytic nanocomposites, and pseudocapacitor materials, demonstrating a broad interdisciplinary approach to functional materials research.

Significant Scientific Contributions

Throughout his research career, Dr. Amin has made meaningful contributions to several emerging areas of materials science:

• Optimization of sodium β-alumina solid electrolytes for energy storage applications.

• Investigation of dielectric properties and ionic transport mechanisms.

• Development of polymer-ceramic hybrid electrolyte systems.

• Exploration of graphene-based nanocomposites for enhanced electrochemical performance.

• Application of nanotechnology in photocatalytic environmental remediation.

• Research on thermally stable materials for high-rate energy storage devices.

These studies contribute to addressing critical challenges in renewable energy integration, battery safety, and sustainable energy infrastructure.

Notable Publications

Dr. Amin's scholarly work has appeared in respected international journals within materials science and electrochemistry. Some notable contributions include:

Thermal Stability and Dielectric Enhancement

Effect of Indium Doping on Thermal Stability and Dielectric Property in Sodium Beta Alumina Solid Electrolyte
Published in Journal of Solid-State Electrochemistry, this work investigates how elemental doping can improve electrolyte performance for sodium-ion batteries.

Nanocomposite Photocatalysts

Synthesis, Characterization, and Photocatalytic Effect of CuS-ZnO Nanocomposite
Published in Inorganic Chemistry Communications, this study explores advanced nanocomposite materials for photocatalytic applications.

Hybrid Electrolyte Systems

Synthesis and Optimization of Ionic Conductivity in PVDF–Sodium β-Alumina Hybrid Nanocomposite System
Published in Journal of Materials Science, this research examines conductivity enhancement through hybrid material design.

Energy Storage Nanomaterials

One-Pot Hydrothermal Fabrication of Thermally Stable V₂O₅/rGO Nanocomposite for High-Rate Pseudocapacitors
Published in Ceramics International, this work focuses on next-generation pseudocapacitor materials with enhanced thermal stability.

Two-Dimensional Materials for Energy Applications

Nanocomposites Based on 2D Materials: Synthesis–Property Relationships for Next-Generation Energy Storage
Published in ChemistrySelect, this article highlights the growing importance of two-dimensional materials in advanced energy technologies.

Research Impact and Scientific Influence

According to Scopus metrics, Dr. Amin has accumulated:

• 6 indexed publications

• 105 citations

• h-index of 3

These indicators reflect the growing influence of his research within the scientific community, particularly in materials science and energy storage disciplines.

His work addresses fundamental scientific challenges while maintaining strong practical relevance for future battery technologies. By improving conductivity, thermal stability, and material durability, his research supports the development of safer and more efficient energy storage systems.

Academic Leadership and Knowledge Dissemination

In addition to his research activities, Dr. Amin has served as an Assistant Professor at Lovely Professional University, contributing to higher education and mentoring the next generation of scientists and engineers.

He actively participates in:

• International scientific conferences

• Academic workshops

• Research collaborations

• Technical presentations

• Student mentoring and supervision

His communication skills and scientific outreach efforts were recognized through the Best Presenter Award at the 2nd International Conference on Advanced Functional Materials and Devices (AFMD-2023), hosted by the University of Delhi.

Why Dr. Owais Amin Merits the Best Researcher Award

The Global Sensor Awards recognize researchers who demonstrate scientific excellence, innovation, and societal impact. Dr. Amin's achievements align strongly with these criteria through:

• High-quality peer-reviewed research.

• Contributions to sustainable energy technologies.

• Interdisciplinary scientific innovation.

• Advancement of solid-state battery materials.

• Academic leadership and mentorship.

• Active engagement with the international research community.

His work directly supports global efforts toward cleaner energy systems and sustainable technological development.

Looking Ahead

As energy demands continue to rise worldwide, breakthroughs in battery technology will remain central to renewable energy adoption and sustainable development. Through his research on solid-state electrolytes, sodium-ion batteries, and advanced functional materials, Dr. Owais Amin is contributing valuable scientific knowledge that may help define the next generation of energy storage solutions.

His growing body of work reflects a commitment to scientific excellence, technological innovation, and practical impact—qualities that make him a deserving recipient of the Best Researcher Award and a promising contributor to the future of materials science and energy research.

Research Areas: Physics, Materials Science, Energy Storage, Electrochemistry, Nanotechnology, Functional Materials, Sodium-Ion Batteries, Solid-State Electrolytes.

Award: Best Researcher Award

Event: Global Sensor Awards

Affiliation: Lovely Professional University, India

45th Edition of Global Sensor Awards | 28–29 June 2026 | Bangkok, Thailand - Novotel Bangkok Sukhumvit 20

🎤 Nominate yourself or a deserving colleague today!

📍 See you in Singapore – 26-27 May 2026!

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