Muhammad Junaid | Nanotechnology | Member

Prof. Muhammad Junaid | Nanotechnology | Member

PHD at The Islamia University Bahawalpur, Pakistan

Muhammad Junaid is a dedicated physicist and academician with a passion for research in nanotechnology and renewable energy. He holds a Ph.D. in Physics (ongoing) from The Islamia University Bahawalpur, Pakistan, and an M.Phil. in Nano-Technology from UMT, Lahore. With expertise in synthesizing photo catalysts and nanomaterials, Junaid has contributed significantly to the field. Currently serving as a Lecturer at The Superior College/University Multan Campus, he focuses on enhancing photocatalytic activity for hydrogen generation and green energy production. His research interests and commitment to academia mark him as a promising figure in the scientific community.

Professional Profiles:

Education

Ph.D. in Physics (Continuing) Institute of Physics, The Islamia University Bahawalpur, Pakistan 2020-2023 M. Phil in Nano-Technology Department of Physics, UMT, Lahore, Pakistan 2017-2019 M. Sc. in Physics Department of Physics, Baha Ud din Zakariya University, Multan, Pakistan 2014-2017 B.Sc. in Physics, Math A, Math B, English Govt. College Civil line, Multan 2011-2013 F. Sc. HSSC (Pre-Engineering) B. I. S. E. Rawal Pindi 2008-2010 Matriculation SSC (Science) B. I. S. E. Mardan KPK 2006-2008

Professional Experiences

Current Position: Lecturer of Physics and Physical Chemistry, Department of Physics, The Superior College/University Multan Campus, Pakistan. Employment Record: PhD Candidate (Continuing) Institute of Physics, The Islamia University Of Bahawalpur Pakistan April 2021 – 2023 M.Phil. Research School of Science, Department of Physics, UMT Lahore Pakistan Feb 2019 – April 2020 Lecturer The ILM Group of Colleges, Multan May 2013 – Aug 2015 Lecturer Pak Turk Int School and Colleges, Multan Feb 2017 – April 2017 Lecturer The Superior Group of Colleges Multan Campus Aug 2018 – Till date

Research Interests

Development of Photo Catalysts for the Photo Reduction of CO2, H2, Water Splitting, and Photo Degradation of Organic Pollutants. Synthesis of Photo Catalysts, Magnetic/Electric Nanomaterials, and Metal Oxides based Nano Particles for Sensors. Synthesis of Nanomaterials/Doped Materials by Various Techniques. Synthesis of Graphene Single/Multiple Layers/Quantum Dots by Hummer Method.

Research Focus:

Muhammad Junaid’s research primarily focuses on the structural, spectral, dielectric, and magnetic properties of various ferrite materials. His investigations span across a wide range of doped and substituted ferrites, including lithium, cobalt, nickel, manganese, and copper-based systems. Through techniques such as micro-emulsion synthesis and sol-gel methods, Junaid explores the impact of doping elements like terbium, indium, gadolinium, dysprosium, and neodymium on the physical characteristics of ferrite materials. This extensive body of work contributes significantly to understanding the intricate relationships between structural modifications and the resulting electromagnetic properties of ferrites, advancing the field of magnetic materials science.

Publications 

  1. Structural, spectral, dielectric and magnetic properties of indium substituted copper spinel ferrites synthesized via sol gel technique, cited by: 34, Publication date: 2020.
  2. Structural, spectral, magnetic and dielectric properties of Bi substituted Li-Co spinel ferrites, cited by: 32, Publication date: 2020.
  3. Impact of Bi–Cr substitution on the structural, spectral, dielectric and magnetic properties of Y-type hexaferrites, cited by: 16, Publication date: 2020.
  4. The influence of Zr and Ni co-substitution on structural, dielectric and magnetic traits of lithium spinel ferrites, cited by: 13, Publication date: 2022.
  5. Investigation into the structural and magnetic features of nickel doped U-type hexaferrites prepared through sol–gel method, cited by: 13, Publication date: 2022.
  6. Structural spectral, dielectric, and magnetic properties of Mg substituted Ba3CoFe24O41 Z-type hexaferrites, cited by: 12, Publication date: 2022.
  7. Structural, spectral, dielectric, and magnetic properties of indium substituted Cu0.5Zn0.5Fe2−xO4 magnetic oxides, cited by: 10, Publication date: 2022.
  8. Effect of Nd3+ ions on structural, spectral, magnetic, and dielectric properties of Co–Zn soft ferrites synthesized via sol-gel technique, cited by: 8, Publication date: 2022.
  9. Evaluations of structural, thermal, spectral, and magnetic properties of Li0. 5Fe2. 5O4 multi magnetic oxide fabricated via sol-gel auto-ignition technique, cited by: 8, Publication date: 2022.
  10. Insight of terbium substitution on the structural, spectroscopic, and dielectric characteristics of the Ba–Mg–Fe–O system, cited by: 5, Publication date: 2023.

 

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