Assoc Prof Dr. Mohammed Salah Mohammed Moaied |Materials selection and structural design| Best Researcher Award

Assoc Prof Dr. Mohammed Salah Mohammed Moaied |Materials selection| Best Researcher Award

Assoc Prof Dr at Zagazig University, Egypt

Mohammed Salah Mohammed Moaied, an Egyptian physicist, was born on February 5, 1982. Currently affiliated with the Physics Department at Zagazig University, Egypt. Married and a proud parent of one child, Mohammed’s commitment to his field is reflected in his diverse research and teaching experiences.

Professional Profiles:

Citations   891
h-index      8
i10-index   8

🎓 Education:

  • Ph.D. in Condensed Matter Physics and Nanotechnology, Universidad Autónoma de Madrid, Spain (2014)
  • MSc in Condensed Matter Physics and Nanotechnology, Universidad Autónoma de Madrid, Spain (2010)
  • BSc in Physics Science, Zagazig University, Egypt (2004)

🌍 Professional Journey:

  • Postdoctoral Researcher at Condensed Matter Physics and Nanotechnology Department, Universidad Autónoma de Madrid, Spain (2021-present)
  • Associate Professor at Physics Department, Zagazig University, Egypt (2019-2021)
  • Assistant Professor at Physics Department, Zagazig University, Egypt (2018-2019)
  • Postdoctoral Researcher at Physics Department, Pukyong National University, Busan, Korea (2017-2018)
  • Assistant Professor at Physics Department, Zagazig University, Egypt (2016-2017)
  • Postdoctoral Researcher at Condensed Matter Physics and Nanotechnology Department, Universidad Autónoma de Madrid, Spain (2015-2016)
  • Lecturer at Physics Department, Zagazig University, Egypt (2014-2015)
  • Researcher at Condensed Matter Physics and Nanotechnology Department, Universidad Autónoma de Madrid, Spain (2008-2013)
  • Researcher at Solid State Physics Department, Zagazig University, Egypt (2004-2008)
  • Instructor at Physics Department, Zagazig University, Egypt (2004-2008)

🧑‍🏫 Teaching Experience:

🔍 Research Interests:

  • Condensed Matter Physics and Materials Science
  • Benchmark DFT calculations
  • Two-dimensional nanomaterials for spintronic applications
  • Magnetic properties of materials, especially ferromagnetic semiconductors

👨‍💻 Skills and Expertise:

  • Programming: Fortran 77/90, C/C++, Matlab
  • Simulation Codes: SIESTA, VASP, Quantum Espresso, VAMPIRE
  • Research Methods: Ab initio electronic structure calculations using DFT
  • Languages: Fluent in English, good command of Spanish, fair knowledge of French

📚 Projects and Thesis:

  • Ph.D. Thesis: Computational Studies of Novel Phenomena on the Surface of Graphite
  • Current Research: Focus on Curie temperature enhancement, gas sensors, hydrogen storage, building heterostructures, and perovskite solar cell materials.

👨‍🔬 Conferences and Workshops:

  • Active participation and presentations in international conferences and workshops.

💡 Grants:

  • Received grants and fellowships from Egyptian and Spanish ministries for research endeavors.

💻 Computer Experience:

  • Proficient in various programming languages, desktop editing tools, productivity software, and visualization tools.
  • Experienced with operating systems: Windows, Mac OS X, Linux, UNIX.

📚 Training:

  • Attended workshops on thinking skills, lifelong learning, time management, scientific research skills, professional ethics, and effective communication.

🌐 Languages:

  • Arabic (Mother tongue)
  • English (Fluent)
  • Spanish (Good)
  • French (Fair)

This physicist’s career spans continents and embodies a dedication to research, teaching, and the exploration of cutting-edge materials in condensed matter physics. With a focus on computational simulations and a diverse skill set, they continue to contribute significantly to the scientific community.

Publications Top Note:

 

Mrs. Burcu Dinç Şengönül | Materials selection and structural design

Mrs. Burcu Dinç Şengönül : Materials selection and structural design

Your dedication, innovative research, and scholarly contributions have truly made a significant impact in your field. Your commitment to advancing knowledge and pushing the boundaries of research is commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field. Well done!

Mrs. Burcu Dinç Şengönül, a distinguished academic and researcher in the field of Materials selection and structural design holds a PhD in Yildiz Technical University, Istanbul (Turkey) . . His academic journey has been marked by a profound dedication to advancing Materials selection and structural design. specifically in Materials selection and structural design and its integration into CAD and Mechanical Engineering applications.

Professional Profiles:

Citations   –  33

h-index      –   3

i10-index    –  1

Education:

Embarking on an academic journey in Civil Engineering, I completed my undergraduate studies at Karadeniz Technical University, Trabzon, from 2011 to 2015. Subsequently, I pursued a Master’s degree at Yildiz Technical University, Istanbul, from 2017 to 2019, specializing in advanced concepts of Civil Engineering. Currently, I am dedicated to my Ph.D. studies at Yildiz Technical University, Istanbul, since 2019. This ongoing journey signifies a commitment to scholarly excellence and an immersion in cutting-edge research within the field of Civil Engineering, poised to contribute to the advancement of knowledge and practical applications in the discipline.

Assoc Prof Dr. MuhammadIdrees Afridi | Fluid mechanics

Assoc Prof Dr. MuhammadIdrees Afridi : Fluid mechanics

Congratulations, Assoc Prof Dr. MuhammadIdrees Afridi , on winning the esteemed Best Researcher Award from Sciencefather !

Your dedication, innovative research, and scholarly contributions have truly made a significant impact in your field. Your commitment to advancing knowledge and pushing the boundaries of research is commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field. Well done!

Assoc Prof Dr. MuhammadIdrees Afridi , a distinguished academic and researcher in the field of Fluid mechanics, holds a PhD in ,Department of Mathematics COMSATS University Islamabad . His academic journey has been marked by a profound dedication to advancing Fluid mechanics, specifically in Fluid mechanics and its integration into CAD and Mechanical Engineering applications.

Professional Profiles:

Education:

  • Ph.D. (2020) 3.91 / 4.0 CGPA Department of Mathematics COMSATS University Islamabad Major Field: Mathematics (Fluid Mechanics) Thesis Title: “Analysis of Entropy Generation in Boundary Layer Flows”
  • M.S (2014) 3.58 / 4.0 CGPA Department of Mathematics NED University of Engineering and Technology, Karachi
    Major Field: Mathematics (Fluid Mechanics) Thesis Title: “Unsteady Flows of Second Grade Fluid over an Oscillating Plane”
  • MSC (2010) 83% Department of Mathematics University of Karachi, Karachi Major Field: Applied Mathematics
  • BSC 66.4 % Department of Physics University of Karachi, Karachi Major Field: Physics
  • FSC 74.6 % Adamjee Govt. Science College, Major Field: Pre. Engineering SSCE 84.2 % Bagh-O-Bahar Children Academy, Sher Shah Colony Karachi Major Field: Science

Citation :

  • Citations    -1383
  • h-index    –  23
  • i10-index   –  34

Publiations all top Notes: 

  • Muhammad Idrees Afridi, Zhi-Min Chen, Nadia Riaz, Muhammad Qasim, Impact of porous
    and magnetic dissipation on dissipative fluid flow and heat transfer in the presence of DarcyBrinkman porous medium. [J] Journal of Porous Media. 2024; 27(3),45-65, (SCI, I.F: 2.3).
  • Muhammad Idrees Afridi, Muhammad Qasim, Ali J Chamkha, Computational analysis of
    entropy generation in three-dimensional mixed convection flow with thermal dissipation and
    variable thermal conductivity. [J]Numerical Heat Transfer, Part A: Applications. 2023; DOI:
    10.1080/10407782.2023.2282150, (SCI, I.F: 2.0).
  • Muhammad Idrees Afridi, Zhi-Min Chen, Muhammad Qasim, Entropy generation in local
    non-similar dissipative MHD flow of CH3OH+ Fe3O4 and C12H26-C15H32+ Fe3O4
    ferrofluids. [J]Journal of Magnetism and Magnetic Materials. 2023 (586), 171177, (SCI, I.F:
  • Muhammad Idrees Afridi, Zhi-Min Chen, Nadia Riaz and Muhammad Qasim, Utilization of twoequation model for analysis of flow over a moving needle in the presence of magnetic field [J]. Z
    Angew Math Mech. 00, e202200495 (2023). (SCI, IF: 1.759)
  • Aslam, F.; Noreen, S.; Afridi, M.I.; Qasim, M. Analysis of Homogeneous/Heterogeneous Reactions
    in an Electrohydrodynamic Environment Utilizing the Second Law. Micromachines [J], 2023, 14, 821..
    (SCI, I.F : 3.523)
  • Muhammad Idrees Afridi*, Zhi-Min Chen, Theodoros E. Karakasidis and Muhammad Qasim, Local
    Non-Similar Solutions for Boundary Layer Flow over a Nonlinear Stretching Surface with Uniform
    Lateral Mass Flux: Utilization of Third Level of Truncation [J]. Mathematics 2022, 10(21), 415. (SCI,
    IF: 2.592).
  • Muhammad Samad Khan, Mubashir Ali Siddiqui and Muhammad Idrees Afridi*, Finite Difference
    Simulation of Nonlinear Convection in Magnetohydrodynamic Flow in the Presence of Viscous and
    Joule Dissipation over an Oscillating Plate [J]. Symmetry. 2022; 14(10):1988. (SCI, IF: 2.940).
  • Muhammad Idrees Afridi*, M. U. Ashraf, Muhammad Qasim and A. Wakif, Numerical simulation
    of entropy transport in the oscillating fluid flow with transpiration and internal fluid heating by
    GGDQM [J]. Waves in Random and Complex Media. 2022. (SCI, IF:4.051).
  • Muhammad Idrees Afridi, Abderrahim Wakif, Abdullah K. Alanazi, Zhi-Min Chen, Muhammad
    Usman Ashraf and Muhammad Qasim, A comprehensive entropic scrutiny of dissipative flows over a
    thin needle featured by variable thermophysical properties, Waves in Random and Complex Media[J].
    2022. (SCI, IF:4.051)
  • Muhammad Idrees Afridi*, Zhi-Min Chen, Muhammad Qasim, Numerical Chebyshev finite
    difference examination of Lorentz force effect on a dissipative flow with variable thermal conductivity
    and magnetic heating: Entropy generation minimization [J]. ZAMM, 102, e202200010, 2022. (SCI,
    IF:1.759).
  • Muhammad Usman Ashraf, Muhammad Qasim, Abderrahim Wakif, Muhammad Idrees Afridi**,
    Isaac L. Animasaun, A generalized differential quadrature algorithm for simulating
    magnetohydrodynamic peristaltic flow of blood-based nanofluid containing magnetite nanoparticles:
    A physiological application, Numerical Methods for Partial Differential Equations [J]. 2022; 38: 666–
    692. (SCI, IF:3.568).
  • Nadia Riaz, Muhammad Qasim, Muhammad Idrees Afridi**, Abid Hussanan, Analysis of threedimensional stagnation point flow over a radiative surface, International Communications in Heat and
    Mass Transfer [J]. 2021 (127) 105538. (SCI, IF:6.782).
  • M. Qasim, N. Riaz, Dianchen Lu, M. I. Afridi**, Flow over a Needle Moving in a Stream of
    Dissipative Fluid Having Variable Viscosity and Thermal Conductivity. Arabian Journal for Science
    and Engineering [J]. 2021 (46) 7295–7302.( SCI, IF:2.807).
  • D.C. Lu, Muhammad Idrees Afridi**, U. Allauddin, U. Farooq and M. Qasim, Entropy Generation
    in a Dissipative Nanofluid Flow Under the Influence of Magnetic Dissipation and Transpiration [J].
    Energies 13 (20) 5506 (2020). (SCI, IF:3.252).
  • M. Qasim, N. Riaz, Dian Chen Lu and Muhammad Idrees Afridi**, Mixed convection flow over a
    vertical stretching sheet with variable thickness: Analytical and numerical solutions of self-similar
    equations [J]. Heat Transfer-Asian Research. (2020). (ESCI,).
  • Najeeb Alam Khan, Faqiha Sultan and Muhammad Idrees Afridi, Investigation of biological
    mechanisms during flow of nano-Bingham–Papanastasiou fluid through a diseased [J]. Proceedings of
    the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and
    Nanosystems. (2020). (SCIE).
  • Abderrahim Wakif, Muhammad Qasim, Muhammad Idrees Afridi**, Salman Saleem and M. M. AlQarni, Numerical Examination of the Entropic Energy Harvesting in a Magnetohydrodynamic
    Dissipative Flow of Stokes’ Second Problem: Utilization of the Gear-Generalized Differential
    Quadrature Method [J]. Journal of Non-Equilibrium Thermodynamics, 44 (2019)385-403. (SCI,
    IF:4.290).
  • Muhammad Idrees Afridi, Tawfeeq Abdullah Alkanha, Muhammad Qasim and Iskander Tlili,
    Entropy Generation in
    Cu Al O H O − − 2 3 2
    Hybrid Nanofluid Flow over a Curved Surface with
    Thermal Dissipation [J]. Entropy, 21(10), (2019) 941. (SCI, IF:2.738).
  • Muhammad Idrees Afridi*, M. Qasim, Second law analysis of Blasius flow with nonlinear Rosseland
    thermal radiation in the presence of viscous dissipation, Propulsion and Power Research [J]. 8 (2019)
    234-242. (SCI, IF: 4.563).
  • M. Qasim, Muhammad Idrees Afridi**, A. Wakif and S. Saleem, Influence of Variable Transport
    Properties on Nonlinear Radioactive Jeffrey Fluid Flow Over a Disk: Utilization of Generalized
    Differential Quadrature Method [J]. Arabian Journal for Science and Engineering, 44 (2019) 5987–
    5996. (SCI, IF:2.807).
  • Muhammad Idrees Afridi, I. Tlili, Marjan Goodarzi, M. Osman and Najeeb Alam Khan,
    Irreversibility Analysis of Hybrid Nanofluid Flow over a Thin Needle with Effects of Energy
    Dissipation [J]. Symmetry, 11 (2019) 663. (SCI, IF:2.940).
  • Faqiha Sultan, Najeeb Alam Khan, Muhammad Qasim, and Muhammad Idrees Afridi, Flow of NanoEyring-Powell Fluid through a Curved Artery with Time-Variant Stenosis and Aneurysm, Nihon
    Reoroji Gakkaishi [J]. 47 (2) (2019) 75-85. (SCI, IF:0.852).
  • Muhammad Idrees Afridi*, M. Qasim and M. Hamdani, Heat transfer analysis of Cu-Al₂O₃-water
    and Cu-Al₂O₃-kerosene oil hybrid nanofluids in the presence of frictional heating: Using 3-Stage
    Lobatto IIIA Formula [J]. Journal of Nanofluids, 8 (4) (2019) 885-891. (ESCI).
  • Muhammad Qasim, Muhammad Idrees Afridi**, Abderrahim Wakif, Nguyen Thoi Trung and Abid
    Hussanan, Second Law Analysis of an Unsteady MHD Dissipative Fluid Flow over a Horizontal
    Stretching Sheet in the Presence of Ohmic Heating: Utilization of Gear—Generalized Differential
    Quadrature Method [J]. Entropy 2019, 21(3), 240. (SCI, IF:2.738).
  • Muhammad Idrees Afridi, Muhammad Qasim, Abderrahim Wakif and Abid Hussanan, Second Law
    Analysis of Dissipative Nanofluid Flow over a Curved Surface in the Presence of Lorentz Force:
    Utilization of the Chebyshev–Gauss–Lobatto Spectral Method [J]. Nanomaterials, 2019, 9(2), 195.
    (SCI, IF:5.719).
  • Muhammad Idrees Afridi*, O. D. Makinde, M. Qasim, Entropy generation due to heat and mass
    transfer in a flow of dissipative elastic fluid through a porous medium [J]. ASME Journal of Heat
    Transfer, 141(2) (2018) 022002. (SCI, IF:1.855).
  • Ilyas Khan, Waqar A. Khan, Muhammad Qasim, Idrees Afridi and Sayer O. Alharbi, Thermodynamic
    Analysis of Entropy Generation Minimization in Thermally Dissipating Flow Over a Thin Needle
    Moving in a Parallel Free Stream of Two Newtonian Fluids [J]. Entropy 2019, 21(1), 74. (SCI,
    IF:2.738).
  • Abderrahim Wakif, Zoubair Boulahia, Abdelaziz Amine, Isaac Lare Animasaun, Muhammad Idrees
    Afridi, Muhammad Qasim, Rachid Sehaqui, Magneto-Convection of Alumina – Water Nanofluid
    Within Thin Horizontal Layers Using the Revised Generalized Buongiorno’s Model [J]. Frontiers in
    Heat and Mass Transfer, 12 (3) (2019) 1-15. (ESCI).
  • Muhammad Idrees Afridi, M. Qasim, Abderrahim Wakif and A. Hussanan, Irreversibility Analysis
    of Dissipative Fluid Flow Over a Curved Surface Stimulated by Variable Thermal Conductivity and
    Uniform Magnetic Field: Utilization of Generalized Differential Quadrature Method [J]. Entropy (2018)
    20 (12): 943. (SCI, IF:2.738).
  • Muhammad Idrees Afridi*, I. Tlili, Muhammad Qasim and Ilyas Khan, Non-linear Rosseland
    Thermal Radiation and Energy Dissipation Effects on Entropy Generation in CNTs Suspended
    Nanofluids Flow over a Thin Needle [J]. Boundary Value Problems, (2018) 2018:148. (SCI, IF:1.793).
  • Muhammad Idrees Afridi*, M. Qasim and Salman Saleem, Second law analysis of three-dimensional
    dissipative flow of hybrid nanofluid [J]. Journal of Nanofluids, 7 (2018) 1-9. (ESCI).
  • Muhammad Idrees Afridi*, M. Qasim and I. Khan, Entropy generation minimization in MHD
    boundary layer flow over a slendering stretching sheet in the presence of frictional and Joule heating
    [J]. Journal of the Korean Physical Society, 73 (2018) 1-7. (SCI, IF:0.657).
  • Muhammad Idrees Afridi*, M. Qasim and O. D. Makinde, Entropy generation of spherical and nonspherical
    Ag water − nanofluids in a porous medium with magnetic and porous dissipation [J].
    Journal of Nanofluids, 7 (5) (2018) 951-960. (ESCI).
  • U. Farooq, Muhammad Idrees Afridi**, M. Qasim and D. C. Lu, Transpiration and viscous
    dissipation effects on entropy generation in hybrid nanofluid flow over a non-linear radially stretching
    disk [J]. Entropy, 2018 20(9) 668. (SCI, IF:2.738).
  • Muhammad Idrees Afridi, M. Qasim, I. Khan, Entropy generation in MHD mixed convection
    stagnation-point flow in the presence of Joule and frictional heating [J]. Case Studies in Thermal
    Engineering, 12 (2018) 292-300. (SCI, IF:6.268).
  • Muhammad Idrees Afridi, M. Qasim and A. Hussanan, Second law analysis of dissipative flow over
    a Riga plate with non-linear Rosseland thermal radiation and variable transport properties [J]. Entropy
    2018 20(8) 615. (SCI, IF:2.738).
  • Muhammad Idrees Afridi, and M. Qasim, Effects of energy dissipation and variable thermal
    conductivity on entropy generation rate in mixed convection flow [J]. Journal of Thermal Science and
    Engineering Applications [J], 10(4) (2017) 044501. (SCI, IF:1.879)
  • Muhammad Idrees Afridi*, and M. Qasim, Comparative study and entropy generation analysis of
    Cu H O − 2
    and
    Ag H O − 2
    nanofluids flow over a slendring stretching surface [J]. Journal of
    Nanofluids 7 (2018) 1-7. (ESCI).
  • Muhammad Idrees Afridi*, and M. Qasim, Entropy generation in three-dimensional flow of
    dissipative fluid [J]. International Journal of Applied Mathematics and Computational Mathematics, 4,
    16 (2018). (SCIE).
  • Muhammad Idrees Afridi*, M. Qasim, O. D. Makinde, Minimization of entropy production in threedimensional dissipative flow of nanofluid with graphene nanoparticles: A Numerical Study [J]. Defect
    and Diffusion Forum 387 (2018) 157-165.
  • Muhammad Idrees Afridi*, M. Qasim, N.A. Khan and O.D. Makinde, Minimization of entropy
    generation in MHD mixed convection flow with energy dissipation and Joule heating: Utilization of
    Sparrow-Quack-Boerner local non-similarity method [J]. Defect and Diffusion Forum, 387 (2018)
    157-165.
  • Muhammad Idrees Afridi*, and M. Qasim, Entropy generation and heat transfer in boundary layer
    flow over a thin needle moving in a parallel stream in the presence of nonlinear Rosseland radiation.
    [J]. International Journal of Thermal Sciences, 123 (2018) 117-128. (SCI, IF:4.779)
  • Muhammad Idrees Afridi*, M. Qasim and O.D. Makinde, Second Law Analysis of Boundary Layer
    Flow with Variable Fluid Properties [J]. Journal of Heat Transfer, 141 (2) (2017) 022002. (SCI,
    IF:1.855).
  • Muhammad Idrees Afridi, M. Qasim and S. Shafie, Entropy Generation in Hydromagnetic Boundary
    Flow under the Effects of Frictional and Joule heating: Exact Solutions, The European Physical Journal
    Plus [J]. 132 (2017) 1-11. (SCI,IF:3.758).
  • Muhammad Idrees Afridi, M. Qasim, I. Khan, S. Shafie and A. S. Alshomran, Entropy Generation
    in Magnetohydrodynamic Mixed Convection Flow over an Inclined Stretching Sheet [J]. Entropy, 19
    (2017) 1-11. (SCI, IF:2.738).