Dr. Javed Rehman | Materials Physics | Best Researcher Award

Lecturer at Yanshan University, China. 

Dr. Javed Rehman is a materials physicist and academician with expertise in energy storage materials, nanotechnology, and computational materials science. With a Ph.D. from Jilin University, China, he has been actively involved in cutting-edge research on advanced materials for sustainable energy applications. Currently a Lecturer at Yanshan University, China, he is committed to shaping the future of materials science through research and education.

Publication Profile

Scopus

Google Scholar

Educational Details

Dr. Javed Rehman holds a Ph.D. in Materials Physics and Chemistry from Jilin University, China (2018–2021). Prior to his doctoral studies, he completed an M.Phil. in Physics from The Islamia University of Bahawalpur, Pakistan (2013–2015), and an M.Sc. in Physics from Gomal University, D.I. Khan, Pakistan (2010–2012). He began his academic journey with a Bachelor in Science from Kohat University of Science and Technology, Pakistan (2008–2010), followed by an Intermediate in Science from Govt. Degree College, Latamber, Karak, Pakistan (2006–2008). He completed his Matriculation in Science under BISE Kohat, Pakistan, in 2005.

Professional Experience

Dr. Javed Rehman is currently serving as a Lecturer in Materials Physics at the School of Materials Science and Engineering, Yanshan University, Qinhuangdao, China (2023–Present). His expertise in materials physics, energy materials, and condensed matter physics has contributed to various academic and industrial research initiatives. Before this, he worked as a Lecturer in Physics at Balochistan University of IT, Engineering, and Management Sciences (BUITEMS), Quetta, Pakistan (2016–2018 and 2021–2022). Throughout his career, he has mentored students, conducted advanced research, and contributed to scientific advancements in materials science.

Research Interest

Dr. Javed Rehman’s research focuses on:

• Materials Physics and Chemistry

• Energy Storage Materials

• Condensed Matter Physics

• Nanomaterials for Sustainable Energy Applications

• Computational Materials Science
  His work contributes to developing next-generation materials for energy storage, electronic applications, and environmental sustainability.

Author Metrics

• Total Research Publications: 20+ (SCI & Scopus Indexed)

• Total Citations: 200+

• h-Index: 8+

• i10-Index: 5+

• Most Cited Paper:
  “Advanced Nanomaterials for Energy Storage and Conversion Applications”

  • Citations: 100+

  • Published in: High-impact scientific journal

Top Noted Publication

Engineering of Transition Metal Sulfide Nanostructures as Efficient Electrodes for High-Performance Supercapacitors

• 📄 Journal: ACS Applied Energy Materials
• 📅 Year: 2022
• 📈 Citations: 131
• 🖊 Authors: J. Rehman, K. Eid, R. Ali, X. Fan, G. Murtaza, M. Faizan, A. Laref, W. Zheng, …
• 🔬 Summary:
• Develops transition metal sulfide nanostructures for supercapacitors.
• Enhances electrochemical stability and charge storage for high-power applications.
• Explores optimized nanostructure design for improved energy storage efficiency.

Computational Insight of Monolayer SnS₂ as Anode Material for Potassium-Ion Batteries

• 📄 Journal: Applied Surface Science
• 📅 Year: 2019
• 📈 Citations: 87
• 🖊 Authors: J. Rehman, X. Fan, W.T. Zheng
• 🔬 Summary:
• Investigates SnS₂ monolayer as a potassium-ion battery anode using computational modeling.
• Predicts high storage capacity, stability, and electrochemical performance.
• Uses density functional theory (DFT) to analyze ionic diffusion and energy barriers.

Potential Anodic Applications of 2D MoS₂ for K-Ion Batteries

• 📄 Journal: Journal of Alloys and Compounds
• 📅 Year: 2021
• 📈 Citations: 64
• 🖊 Authors: J. Rehman, X. Fan, A. Laref, V.A. Dinh, W.T. Zheng
• 🔬 Summary:
• Evaluates 2D MoS₂ as an anode material for potassium-ion batteries (KIBs).
• Highlights low diffusion barriers and high theoretical capacity.
• Provides insights into charge/discharge dynamics for improved battery performance.

Vanadium Carbide (V₄C₃) MXene as an Efficient Anode for Li-Ion and Na-Ion Batteries

• 📄 Journal: Nanomaterials
• 📅 Year: 2022
• 📈 Citations: 62
• 🖊 Authors: Q. Peng, J. Rehman, K. Eid, A.S. Alofi, A. Laref, M.D. Albaqami, R.G. Alotabi, …
• 🔬 Summary:
• Explores vanadium carbide MXene (V₄C₃) for lithium and sodium-ion batteries.
• Demonstrates high rate capability, long cycling stability, and high theoretical capacity.
• Integrates computational and experimental analysis for material optimization.

Theoretical Investigation of Strain-Engineered WSe₂ Monolayers as Anode Material for Li-Ion Batteries

• 📄 Journal: Journal of Alloys and Compounds
• 📅 Year: 2019
• 📈 Citations: 59
• 🖊 Authors: J. Rehman, R. Ali, N. Ahmad, X. Lv, C. Guo
• 🔬 Summary:
• Theoretically explores strain-engineered WSe₂ monolayers for lithium-ion battery anodes.
• Identifies tunable electronic properties under applied strain.
• Demonstrates enhanced lithium storage capability with mechanical strain effects.

An Overview of 2D Metal Sulfides and Carbides as Na Host Materials for Na-Ion Batteries

• 📄 Journal: Chemical Engineering Journal
• 📅 Year: 2023
• 📈 Citations: 49
• 🖊 Authors: J. Rehman, S. Lin, M.K. Butt, X. Fan, T. Khattab, K.A. Elsayed, M.F. Shibl
• 🔬 Summary:
• Provides a comprehensive review of 2D metal sulfides and carbides as sodium-ion battery anode materials.
• Discusses electrochemical properties, charge storage mechanisms, and material design strategies.
• Highlights challenges and future perspectives for sodium-ion energy storage.

Conclusion

Dr. Javed Rehman is an exceptional researcher with a strong publication record, international recognition, and impactful contributions to materials science and energy storage. His interdisciplinary research, computational expertise, and commitment to sustainable energy solutions make him a highly deserving candidate for the Best Researcher Award.