Mohamed Issa | Physics | Young Scientist Award

Published on by Scientific World Research Awards

Mr. Mohamed Issa | Physics | Young Scientist Award

Student | Al-Azhar University | Egypt

Mr. Mohammed Ibrahim Al-Saeed Issa is an independent researcher specializing in fundamental theoretical physics and cosmology, with a central focus on developing a comprehensive Theory of Everything that unifies universal laws, consciousness, space time, and cosmic renewal mechanisms. His research interests include modifications to relativity, consciousness-driven models of the universe, self-renewing cosmic systems, and the philosophical foundations underlying physical laws. He possesses strong research skills in theoretical and conceptual modeling, analytical reasoning, interdisciplinary synthesis across physics and metaphysics, and the formulation of original universal frameworks. His 2025 scholarly works—How the Universe Speaks through Consciousness, Modification of Relativity, Theory of Everything and the Law of the Universe, and How Does the Universe Renew Itself?—demonstrate innovative and integrative thinking. His awards and honors are emerging as his ideas gain recognition within global research communities. In conclusion, Mr. Issa’s work represents an ambitious effort to advance unified cosmological understanding through original, theory-driven exploration beyond conventional scientific models.

Profiles

View Google Scholar   View ORCID

Featured Publications

 

Azizollah Shafiekhani | Physics | Best Innovation Award

Published on by Scientific World Research Awards

Prof. Azizollah Shafiekhani | Physics | Best Innovation Award

Faculty member | Alzahra University | Iran

Prof. Azizollah Shafiekhani is a distinguished physicist and nanoscience researcher at the Department of Theoretical Physics and Nanophysics, Alzahra University, widely recognized for his influential contributions to nanomaterials, surface physics, graphene-based systems, quantum dots, plasmonics, thin films, and photoelectrochemical applications. His research interests span nanophysics, nanostructured materials, graphene spintronics, photocatalysis, biosensors, quantum nanostructures, and advanced surface characterization techniques, addressing both fundamental science and applied technologies. Prof. Shafiekhani’s research skills include theoretical modeling, nanomaterial synthesis, surface and interface analysis, XPS, AFM-based micromorphology, fractal analysis, and interdisciplinary experimental–computational approaches. His scholarly impact is reflected in 2,693 Scopus citations, 49+ indexed documents, and a strong h-index of 24, underscoring sustained international influence. Through prolific publications, high-impact collaborations, and academic recognition, he has earned several professional honors and continues to advance nanophysics research, fostering innovation, mentorship, and global scientific collaboration with lasting impact on materials science and applied physics.

Citation Metrics (Google Scholar)

2700
2000
1000
500
0

Citations

2,693

i10-index

49

h-index

24

Citations

i10-index

h-index

View Google Scholar

Featured Publications


XPS study of the Cu@Cu₂O core–shell nanoparticles


– Applied Surface Science, 2008 (Citations: 810)


Study of surface plasmon resonance of Cu@Cu₂O core–shell nanoparticles by Mie theory


– Journal of Physics D: Applied Physics, 2008 (Citations: 111)


Microstructure and tribological properties of FeNPs@aC:H films


– Industrial & Engineering Chemistry Research, 2015 (Citations: 91)


Graphene / Li-ion battery


– Journal of Applied Physics, 2012 (Citations: 88)