Dr. Salman N. Arshad received BS in Metallurgy and Materials Engineering from GIK Institute of Engineering Sciences and Technology, Pakistan, and then moved to South Korea for Masters in Materials Science and Engineering from Korea Advanced Institute of Science and Technology (KAIST). At KAIST he developed novel bottom-up methods to synthesize carbon nanotubes reinforced metal and ceramic nanocomposite materials with enhanced mechanical and multifunctional properties.
After working for one year as Research Associate at GIK Institute where he taught materials engineering courses and developed laboratory courses, Dr. Arshad went to USA where he received Masters in Aerospace Engineering and PhD in Materials Science and Engineering from University of Illinois at Urbana-Champaign. At UIUC, he developed optimized polymer and carbon nanofibers with modulated surfaces for enhanced strengthening and toughening for structural composite materials. He also worked on developing bulk nanostructured alloys using high temperature severe plastic deformation with grain and second phase precipitate sizes on the order of 10 nanometer.
Dr. Arshad's research focuses on the design and synthesis of nanofibers and nanocomposites for applications in energy and environment (see figure). His research work has been published in high quality peer-reviewed journals such as Advanced Materials, Carbon, Polymer, Scripta Materialia, Acta Materialia, Journal of Materials Research, Scientific Reports and RSC Advances. He also earned a US Patent and has more than 1500 citations to date (Google Scholar).
Dr. Arshad is currently working as Associate Professor (tenured) in the Department of Chemistry & Chemical Engineering.
For more details please visit his Research group webpage!
Contact:
Office: 9-435A (4th floor)
Department of Chemistry and Chemical Engineering
SBA School of Science and Engineering
Lahore University of Management Sciences
Opposite Sector-U, DHA, Lahore 54792, Pakistan.
Tel: +92 42 3560 8478
| Title | Publication | Author | Year |
|---|---|---|---|
| One pot fabrication of FeNi-BTC MOFs as effective electrocatalysts for oxygen evolution reaction | Journal of Electroanalytical Chemistry | Sajjad F., Arshad S.N., Aftab F., Ehsan M.A., Saeed A., Manzoor S., Iqbal B., Ashiq M.N., | 2025 |
| Flower-like nanoscale Ni(OH)2/MnCO3 electrocatalyst for efficient hydrogen evolution reaction in wide pH range | Fuel | Siddique Z., Arshad S.N., Ehsan M.A., Aftab F., Munir A., Manzoor S., Fatima S., Sajjad F., Ahmad J., Duran H., Citoglu S., | 2025 |
| Microwave-assisted sustainable extraction of polyphenols from Mentha arvensis using choline chloride-glycerol-deep eutectic solvent with categorical boosting evaluation | Microchemical Journal | Naseem Z., Qadir M.B., Bentalib A., Khaliq Z., Ahmad F., Zahid M., Arshad S.N., Akbar A.R., Afzal R., | 2025 |
| Enhancing Oxygen Evolution Reaction Activity through Linker Functionalization in Manganese-Based Metal-Organic Frameworks (Mn-MOFs) | Chemelectrochem | Akbar A., Ullah I., Arshad S.N., Zaheer M., | 2025 |
| Fabrication and Physio-chemical characterization of biocompatible and antibacterial Vitis vinifera(grapes) loaded PVA nanomembranes for dermal applications | Materials Today Communications | Tahir R., Nazir A., Qadir M.B., Khaliq Z., Hareem F., Arshad S.N., Aslam M., | 2025 |
| Sustainable Formate Synthesis: Integrating Ethylene Glycol Oxidation with Carbon Dioxide Electrocatalysis Using Redox-Stabilized Earth-Abundant Electrodes | ACS Sustainable Chemistry and Engineering | Bashir I., McGettrick J.D., Kuhnel M.F., Sarfraz B., Arshad S.N., Rauf A., | 2024 |
| Reinforcement using undoped carbon quantum dots (CQDs) with a partially carbonized structure doubles the toughness of PVA membranes | Nanoscale Advances | Latif Z., Albargi H.B., Khaliq Z., Shahid K., Khalid U., Qadir M.B., Ali M., Arshad S.N., Alkorbi A.S., Jalalah M., Jalalah M., | 2024 |
| A novel antibacterial surgical face mask with green synthesized Zinc Oxide nanoparticles and Azadirachta Indica extract | Journal of Engineered Fibers and Fabrics | 2024 |