Dr. Imran Aslam | Materials Chemistry | Best Researcher Award

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Dr. Imran Aslam | Materials Chemistry | Best Researcher Award

Dr. Imran Aslam | Materials Chemistry | Associate Professor at Department of Physics, GC Women University Sialkot , Pakistan

Dr. Imran Aslam is an Associate Professor (BPS-20) at the Department of Physics, GC Women University, Sialkot, Pakistan. With over 15 years of teaching and research experience, he has authored 60+ research articles in international peer-reviewed journals, accumulating 3250 citations, an H-index of 27, and an i10-index of 47. His research specializes in nano- heterostructured materials for energy storage, environmental applications, and density functional theory (DFT). He serves as a reviewer for prestigious journals like Scientific Reports (Nature), Journal of Crystal Growth, and Chemosphere. As an HEC-approved PhD supervisor, he has supervised 11 MS students and 4 PhD candidates. He has also been a keynote speaker at multiple international conferences. His contributions to academia have earned him accolades such as the CAS President’s International Fellowship (2016) and the Quaid-e-Azam Gold Medal Award (2020).

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Summary of Suitability for Award:

Dr. Imran Aslam, an Associate Professor at GC Women University Sialkot, is a distinguished researcher in the field of nanomaterials and energy storage. With over 15 years of research and teaching experience, he has authored/co-authored more than 60 research articles in high-impact international journals, accumulating a total impact factor of 300 and over 3,250 citations (H-index: 27, i10-index: 47). His extensive research contributions span the synthesis and characterization of micro/nano heterostructured materials, photocatalysis, supercapacitors, and density functional theory (DFT). Additionally, he serves as a reviewer for multiple reputed journals and is an HEC-approved Ph.D. supervisor. His role as an invited speaker at international conferences further highlights his expertise. Dr. Imran Aslam’s significant contributions to material science, coupled with his prolific publication record, high citation impact, and leadership in research supervision, make him an outstanding candidate for the “Best Researcher Award.” His dedication to advancing nanotechnology and sustainable energy solutions further strengthens his suitability for this prestigious recognition.

🎓Education:

Dr. Imran Aslam holds a Postdoctoral Fellowship (2017) from the National Centre for Nanoscience and Technology (NCNST), Chinese Academy of Sciences. He earned his PhD (2015) from the Beijing Institute of Technology, China, as a recipient of the CSC Scholarship (2011-2015). His M.Phil. (2010) degree is from GC University, Lahore, Pakistan, where he was awarded the M.Phil. Fellowship at Salam Chair in Physics. Prior to that, he completed his M.Sc. (2008) in Physics from the University of the Punjab, Lahore. His academic achievements also include the Distinguished Student Award (2013/2014) at Beijing Institute of Technology, China. Throughout his education, Dr. Aslam has demonstrated a strong focus on nanotechnology, energy storage, photocatalysis, and computational material science, laying the foundation for his extensive research career.

🏢Work Experience:

Dr. Imran Aslam has an extensive 15-year career in academia and research. Currently, he is an Associate Professor at GC Women University, Sialkot. He has previously served as Resident Officer (2020-2023), Convener of the Mess Committee (2021-2023), Technical Evaluation Committee (2020-2023), and Events Management Committee (2022-2023) at UET Lahore, Narowal Campus. Additionally, he was MPhil Coordinator and Exam Superintendent (2015-2016) at the University of Gujrat. His contributions extend to exam coordination, admissions, and scholarship programs at GCWUS. He is an external examiner for MS/PhD theses at multiple universities, including University of Gujrat, Riphah International University, and The University of Chenab. As a co-PI of an HEC-funded project worth 9.4 million rupees, his expertise also spans research administration. Dr. Aslam actively reviews manuscripts for top-tier journals, ensuring quality contributions to the scientific community.

🏅Awards: 

Dr. Imran Aslam has received numerous national and international accolades in recognition of his academic and research contributions. In 2020, he was awarded the Quaid-e-Azam Gold Medal by Istehkam-e-Pakistan Foundation. His international recognition includes the CAS President’s International Fellowship Initiative (PIFI) 2016 for postdoctoral studies at the Chinese Academy of Sciences. As a PhD scholar at Beijing Institute of Technology, he was honored with the Distinguished Student Award (2013/2014) and the CSC Scholarship (2011-2015). During his M.Phil. at GC University, Lahore, he secured a fellowship at Salam Chair in Physics. His consistent excellence in research and leadership in various academic roles has further solidified his reputation as a distinguished scientist in materials science, photocatalysis, and nanotechnology.

🔬Research Focus:

Dr. Imran Aslam’s research is centered on the synthesis and characterization of micro/nano heterostructured materials using cost-effective methods. His work explores optical, photoluminescence, and energy storage properties with applications in supercapacitors and lithium-ion batteries. Additionally, his expertise extends to photocurrent response, incident photo-to-current conversion efficiency (IPCE), and photocatalytic hydrogen production via water-splitting. His environmental research involves photo-degradation processes for pollutant removal. He also conducts computational studies using Density Functional Theory (DFT) to predict and optimize material properties for various energy applications. His contributions have significantly advanced material science, nanotechnology, and environmental sustainability. His findings are published in high-impact journals, and he collaborates internationally to push the frontiers of nano-engineered materials.

Publication Top Notes:

Multifunctional g-C₃N₄ Nanofibers: A Template-Free Fabrication and Enhanced Optical, Electrochemical, and Photocatalyst Properties

Citations: 412

Tubular graphitic-C₃N₄: A Prospective Material for Energy Storage and Green Photocatalysis

Citations: 275

High-Valence-State NiO/Co₃O₄ Nanoparticles on Nitrogen-Doped Carbon for Oxygen Evolution at Low Overpotential

Citations: 239

Synthesis of Novel ZnV₂O₄ Hierarchical Nanospheres and Their Applications as Electrochemical Supercapacitor and Hydrogen Storage Material

Citations: 183

Template-Free Synthesis of CuS Nanosheet-Based Hierarchical Microspheres: An Efficient Natural Light Driven Photocatalyst

Citations: 174

Green Synthesis of TiO₂ Nanoparticles Using Lemon Peel Extract: Their Optical and Photocatalytic Properties

Citations: 147

Bifunctional Catalysts of Co₃O₄@GCN Tubular Nanostructured (TNS) Hybrids for Oxygen and Hydrogen Evolution Reactions

Citations: 143

Large-Scale Production of Novel g-C₃N₄ Microstrings with High Surface Area and Versatile Photodegradation Ability

Citations: 129

A Novel Z-Scheme WO₃/CdWO₄ Photocatalyst with Enhanced Visible-Light Photocatalytic Activity for the Degradation of Organic Pollutants

Citations: 128

One-Dimensional Graphitic Carbon Nitrides as Effective Metal-Free Oxygen Reduction Catalysts

Citations: 101

The Synergistic Effect Between WO₃ and g-C₃N₄ Towards Efficient Visible-Light-Driven Photocatalytic Performance

Citations: 95

Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry | Best Researcher Award

Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry |Solid State Physics research at National Research Center, Egypt

M. R. Ebrahim, born in Giza, Egypt, is a distinguished researcher in solid-state physics at the National Research Centre (NRC), Egypt. He obtained his Ph.D. in Experimental Physics from Mansoura University, specializing in the synthesis and preparation of Al/Ru bi-layers. His expertise lies in severe plastic deformation (SPD) and surface mechanical alloying (SMA) of aluminum. He has significantly contributed to materials science with innovations such as Surface Mechanical Attrition Treatment (SMAT), for which he holds a patent. His research has advanced aluminum composites, corrosion resistance, and electrochemical behavior, leading to applications in supercapacitors, coatings, and energy storage devices. He has authored numerous publications in high-impact journals and collaborates internationally in materials engineering. His work integrates theoretical physics with experimental applications, contributing significantly to nanomaterials, electrochemistry, and advanced materials.

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Summary of Suitability for Award:

M. R. Ebrahim is a highly accomplished researcher specializing in solid-state physics, severe plastic deformation (SPD), and surface mechanical alloying (SMA). His groundbreaking innovations, such as Surface Mechanical Attrition Treatment (SMAT), have significantly advanced materials science, particularly in supercapacitor development, corrosion resistance, and electrochemical behavior. His patents, numerous high-impact publications, and contributions to industrial and academic research demonstrate his expertise and leadership in his field. He has successfully bridged the gap between theoretical physics and applied materials engineering, leading to practical advancements in nanomaterials and surface engineering. His active involvement in research collaborations, peer reviewing, and international conferences further strengthens his candidacy for this prestigious award. M. R. Ebrahim’s research excellence, technological innovations, and impactful contributions to materials science make him a highly deserving candidate for the “Best Researcher Award.” His patents, publications, and pioneering work in surface engineering and electrochemistry showcase his ability to drive scientific progress and innovation. Recognizing his achievements would honor his dedication to advancing materials science and inspire further groundbreaking research in the field.

🎓Education:

M. R. Ebrahim pursued his academic journey in physics, starting with a B.Sc. in Physics from Helwan University, Egypt. He furthered his studies with a Ph.D. in Experimental Physics from Mansoura University, focusing on synthesis and preparation of Al/Ru bi-layers. His doctoral research emphasized surface modifications, mechanical alloying, and electrochemical properties of aluminum-based materials. His educational background laid a strong foundation for his work in severe plastic deformation (SPD), surface engineering, and supercapacitor technology. His studies encompassed various aspects of solid-state physics, nanomaterials, and electrochemical behavior. With extensive laboratory experience, he gained expertise in materials characterization, thin-film coatings, and corrosion-resistant materials. His education has driven his innovations in advanced materials processing, mechanical attrition, and novel composite development, enabling him to make significant contributions to materials science and industrial applications.

🏢Work Experience:

M. R. Ebrahim has been a Researcher in Solid-State Physics at NRC, Egypt, since 2010, working extensively on surface mechanical alloying, corrosion resistance, and severe plastic deformation of aluminum-based materials. His research focuses on enhancing the mechanical, electrical, and electrochemical properties of metals for various applications. He pioneered SMAT technology for material surface modifications, significantly improving supercapacitor performance, dielectric properties, and composite coatings. His collaborations extend internationally, engaging in projects related to nano-coatings, energy storage, and metal reinforcement techniques. He has contributed to industrial advancements by integrating electrochemical engineering with material science, leading to innovative solutions for corrosion-resistant and high-performance aluminum materials. He actively publishes, reviews scientific papers, and participates in global conferences, sharing his expertise in materials modification, nanostructured composites, and energy applications. His work bridges the gap between fundamental physics and practical material applications, driving progress in advanced alloy engineering.

🏅Awards: 

M. R. Ebrahim has received several prestigious recognitions for his outstanding contributions to solid-state physics, surface mechanical alloying, and severe plastic deformation. He has been acknowledged for his innovative patents, including the “Machine for Surface Mechanical Attrition Treatment (SMAT)” and “Supercapacitors Construction from Fiberglass through Surface Mechanical Alloying.” These innovations were recognized by the Egyptian Scientific Research Academy, highlighting their significance in advancing materials science and energy storage technologies. His research excellence has also earned him invitations to international conferences, peer-reviewing roles in high-impact journals, and collaborations with leading institutions. His contributions to corrosion resistance, electrochemical behavior, and composite materials have been widely cited, further solidifying his reputation as a leading researcher in his field. His dedication to applied physics and engineering continues to influence modern materials science, making him a strong contender for prestigious scientific awards and fellowships.

🔬Research Focus:

M. R. Ebrahim’s research is centered on solid-state physics, surface engineering, and severe plastic deformation (SPD) to enhance material properties. His work on surface mechanical alloying (SMA) and surface mechanical attrition treatment (SMAT) has led to significant advancements in corrosion resistance, mechanical strength, and electrical properties of aluminum-based materials. A key aspect of his research is the development of supercapacitors using fiberglass and aluminum composites, which has implications for energy storage and electronic applications. His studies also explore electrochemical behavior, dielectric permittivity, and microstructural evolution in materials subjected to mechanical treatments. By integrating experimental physics with material science, he has successfully introduced innovative methodologies to modify and enhance material surfaces for industrial and technological applications. His contributions are particularly impactful in nanomaterials, thin films, and composite materials, where his work continues to drive new advancements in materials engineering and applied physics.

Publication Top Notes:

  • “Electrical properties of Al-Si surface composites through surface mechanical alloying on severe plastic deformed Al substrates”

  • “Mechanical treatment of aluminum plate surfaces for improvements of capacitance and dielectric permittivity”

  • “Corrosion behavior of aluminum-Fiber Glass composite fabricated through surface mechanical alloying in alkaline media”

  • “Electrochemical behavior of Al₂O₃/Al composite coated Al electrodes through surface mechanical alloying in alkaline media”

  • “Terahertz acoustic phonon detection from a compact surface layer of spherical nanoparticles powder mixture of aluminum, alumina and multi-walled carbon nanotube”

  • “Improving corrosion resistance of Al through severe plastic deformation 1-under free condition”

  • “Improving corrosion resistance of Al through severe plastic deformation 2-under accelerated condition”

  • “Spectroscopic Analysis of Severe Plastically Deformed Raw Al Rolled Sheet”

  • “Microstructure and Microhardness Evolutions of High Fe Containing Near-Eutectic Al-Si Rapidly Solidified Alloy”

  • “Microstructure and microhardness evolution of melt-spun Al-Si-Cu alloy”

  • “Study of Phase Evolution in Sputtered Al/Ru Bi-layers Nanocrystalline Thin Films”