Marcilei Aparecida Guazzelli | Experimental methods | Women Researcher Award

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Prof. Dr. Marcilei Aparecida Guazzelli | Experimental methods | Women Researcher Award

Professor at Centro Universitário FEI | Brazil

Prof. Marcilei Aparecida Guazzelli is a Brazilian physicist and full professor at Centro Universitário FEI, renowned for her research in radiation physics, nuclear structure, and semiconductor devices. With a strong background in experimental nuclear physics and ionizing radiation effects, she has made impactful contributions to both academic science and applied engineering. Her research spans international collaborations, high-impact publications, and scientific leadership. As the head of multiple laboratories and coordinator of national and international projects, she has positioned herself as a leader in radiation tolerance studies and nuclear materials.

👨‍🎓Profile

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📘 Early Academic Pursuits

Prof. Guazzelli’s academic journey began at the Institute of Physics, USP, where she earned her undergraduate degree (1990–1994). She pursued a Master’s degree (1996–1999) focused on the atomic force microscopy of diamond films, and later completed her PhD (2002–2004) with work on the nuclear structure of ⁵⁸Co, an odd-odd nucleus. Her early exposure to experimental physics and critical thinking laid the foundation for her lifelong commitment to the study of ionizing radiation effects, semiconductors, and nuclear materials. Her rigorous academic training shaped her ability to merge fundamental science with technological application.

🧑‍🏫 Professional Endeavors

Prof. Guazzelli has held various academic ranks at Centro Universitário FEI, culminating in her promotion to Full Professor in 2017. Previously, she served at Universidade Metodista de São Paulo and played pivotal roles in research infrastructure, heading both LERI and LAFIR laboratories. Her professional contributions include coordinating major national projects such as INCT_Nuclear Physics and CITAR, and serving on several scientific committees and councils. She actively contributes to policy-making, event organization, and interdisciplinary research, often collaborating with institutions like INFN (Italy), USP, and ITA, while maintaining an active teaching role.

🔬 Contributions and Research Focus

Prof. Guazzelli’s research focuses on the effects of ionizing radiation on materials and semiconductor devices, a field critical to aerospace, nuclear safety, and microelectronics. Her work investigates total ionizing dose, single-event effects, and neutron interactions in materials like GaN HEMTs, SiC, and highly oriented pyrolytic graphite (HOPG). She also collaborates in the NUMEN project, aiming to understand neutrinoless double beta decay through nuclear matrix elements. With 184 peer-reviewed publications, her findings support both scientific understanding and technological innovation, particularly in developing radiation-hardened devices for extreme environments.

🌍 Impact and Influence 

Prof. Guazzelli has established a global impact through her collaborations with European institutions, such as INFN, CNA, and the Polytechnic University of Turin, as well as national partners including FAPESP, CNPq, and USP. Her research findings are widely cited and contribute to international advancements in nuclear physics and electronics. As editor, speaker, and scientific coordinator, she has influenced policies, research priorities, and educational standards. Her participation in projects with CERN, CUBESATS, and LHC demonstrates her integral role in the future of high-energy and applied physics.

📚 Academic Citations

Prof. Guazzelli boasts an H-index of 19, with 1,497 citations listed on Google Scholar—a testament to the influence and relevance of her scholarly output. With over 184 articles in peer-reviewed journals, 7 book chapters, and numerous conference proceedings, her academic presence is substantial. These works are referenced by scholars across nuclear physics, materials science, and radiation effects, indicating her interdisciplinary reach. Her most cited research includes studies on diamond films, GaN HEMTs, neutron interactions, and beta decay. She maintains active profiles on ORCID, ResearchGate, and Publons, making her work accessible and transparent.

🛠️ Research Skills

Prof. Guazzelli demonstrates expertise in nuclear instrumentation, radiation detection, materials testing under irradiation, and semiconductor failure analysis. She is highly proficient in coordinating complex, multi-institutional experimental campaigns, especially at international particle accelerator labs (INFN, GANIL, ALTO). Her skills extend to data analysis, microscopy, Monte Carlo simulations, and collaborative publication writing. She effectively integrates experimental results into both academic discourse and industry-relevant solutions, showcasing her versatility. Her leadership of multi-year grant-funded projects attests to her ability to manage research teams, secure funding, and contribute meaningful advances in applied nuclear physics and radiation engineering.

👩‍🏫 Teaching Experience 

A dedicated educator, Prof. Guazzelli has served as course coordinator for Physics and Modern Physics at Centro Universitário FEI for over a decade. She teaches at the undergraduate and graduate levels, notably in nano-microelectronics and radiation physics, mentoring students in both academic theory and experimental practice. She has supervised numerous master’s and doctoral theses, guided scientific initiation students, and contributed to curriculum development in Engineering and Applied Physics. Her teaching philosophy emphasizes real-world applications, interdisciplinary knowledge, and inclusive education, and she frequently promotes science communication, especially for young women in STEM.

🏆 Awards and Honors 

Prof. Guazzelli has received multiple awards recognizing her commitment to education, research, and gender equality in science. Notably, her students have won Best Presentation at SICFEI (2019, 2020, 2021) and Best Poster at SERESSA (2019, 2020). She has served as Communications Director of the Brazilian Physical Society and as chair/editor of key scientific events such as RTFNB. Her invited talks and public science appearances on TV SEN, Rede Globo, and Canaltech underscore her role in public outreach. Her involvement in events like “Women in Science” showcases her advocacy for inclusion and visibility of women researchers.

🔮 Legacy and Future Contributions

Prof. Guazzelli’s legacy lies in her dedication to scientific excellence, education, and gender equity in physics. She continues to push boundaries in radiation physics, training the next generation of scientists and engineers. Her role in international collaborations like NUMEN, SAFIIRA, and CERN-related projects ensures her influence will persist in shaping nuclear science policy and application. Through ongoing mentorship, leadership in interdisciplinary projects, and contributions to STEM outreach, she exemplifies the transformative potential of science. Her future work will likely focus on next-generation materials, sustainable nuclear technologies, and cross-border knowledge exchange.

Top Noted Publications

📄Effects of neutron radiation on the thermal conductivity of highly oriented pyrolytic graphite
  • Authors: Guazzelli, M. A.; Avanzi, L. H.; Aguiar, V. A. P.; Vilas-Boas, A. C.; Alberton, S. G.; Masunaga, S. H.; Chinaglia, E. F.; Araki, K.; Nakamura, M.; Toyama, M. M. et al.
    Journal: Diamond and Related Materials
    Year: 2025
📄 Single-Event Effects Induced by Monoenergetic Fast Neutrons in Silicon Power UMOSFETs
  • Authors: Saulo G. Alberton; Alexis C. Vilas-Bôas; Marcilei A. Guazzelli; Vitor A. P. Aguiar; Matheus S. Pereira; Nemitala Added; Claudio A. Federico; Tássio C. Cavalcante; Evaldo C. F. Pereira Júnior; Rafael G. Vaz et al.
    Journal: IEEE Transactions on Device and Materials Reliability
    Year: 2025
📄Ion-Induced Charge and Single-Event Burnout in Silicon Power UMOSFETs
  • Authors: Saulo G. Alberton; Vitor A. P. Aguiar; Nemitala Added; Alexis C. Vilas-Bôas; Marcilei A. Guazzelli; Jeffery Wyss; Luca Silvestrin; Serena Mattiazzo; Matheus S. Pereira; Saulo Finco et al.
    Journal: Electronics
    Year: 2025
📄 Evaluation of Funnel Models on Calculation of Ion-Induced Collected Charge
  • Authors: Vitor A. P. Aguiar; Nilberto H. Medina; Nemitala Added; Saulo G. Alberton; Eduardo L. A. Macchione; Marcilei A. Guazzelli; Marco A. A. Melo; Juliano A. Oliveira; Renato C. Giacomini; Fernando R. Aguirre et al.
    Journal: IEEE Transactions on Electron Devices
    Year: 2025
📄 Channel morphology as a key factor to hydrological and sedimentological patterns in the largest fluvial ria lake of Amazonia
  • Authors: João Paulo S. de Cortes; Marcilei A. Guazzelli; Jessica F. Curado; Eliane F. Chinaglia; Wagner Sciani; Fabiano N. Pupim; George Luiz Luvizotto
    Journal: Journal of South American Earth Sciences
    Year: 2023

 

 

Sadhana Singh | Theoretical Advances | Best Researcher Award

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Mrs. Sadhana Singh | Theoretical Advances | Best Researcher Award

NIT JALANDHAR | India

Dr. Sadhana Singh is a highly accomplished academic and researcher with a strong background in Electronics and Communication Engineering. Currently pursuing her Ph.D. at NIT Jalandhar, her research is focused on Low Power VLSI Circuits. With a passion for education, she has also contributed significantly to teaching at DAVIET as an Assistant Professor in the past.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Dr. Sadhana Singh’s journey began with a solid foundation in electronics and communication, starting from her early education at St. Antony’s Convent School, followed by KMV Collegiate Senior Sec. School. She later pursued her B.E. in Electronics and Communication from SSGPURC, Bajwara, with a 75.42% academic achievement. She further excelled by completing her M.Tech. in Electronics and Communication at NIT Kurukshetra, achieving an impressive 8.7742 CGPA.

Professional Endeavors 🏢

From July 2017 to June 2018, Dr. Singh served as an Assistant Professor at DAVIET, Jalandhar, contributing to the Department of Electronics and Communication Engineering. Her professional experience has been instrumental in shaping her career as a dedicated educator, imparting both theoretical and practical knowledge to students in the electronics and communication domains.

Contributions and Research Focus 🔬

Dr. Singh’s research primarily revolves around the design and performance analysis of Low Power VLSI circuits and semiconductor devices. Her Ph.D. thesis focuses on the Heterojunction GAA-NWTFET with a core insulator for low power applications, which is an important area in nanoelectronics and VLSI design. Furthermore, her M.Tech. research explored innovative techniques for PAPR reduction in OFDM systems. This demonstrates her deep engagement with modern communication systems and their optimization.

Impact and Influence 🌍

Dr. Singh has made significant strides in both academic research and the engineering industry. She has contributed to 4 SCI research papers published in reputable journals, demonstrating her technical expertise and her contributions to the field of electronics. Her research has also impacted the field of wireless communication and nanoelectronics.

Academic Cites 📚

Her scholarly work has been widely cited in academic circles, with research papers on topics such as Wide Band Semiconductors and the performance analysis of TFET devices. Notably, her work has appeared in high-impact journals like J. Silicon, ECS Journal of Solid State Science and Technology, and J. Micro and Nanostructures, making her a recognized name in nanotechnology and low-power circuit design.

Research Skills 🧠

Dr. Singh is proficient in various technical tools and languages, including MATLAB, Silvaco TCAD Atlas, Xilinx, and Quartus. She has strong research skills in digital signal processing, wireless communication, and embedded systems. Additionally, her expertise in low-power VLSI, MIMO systems, and digital communication has made her an asset to the electronics research community.

Teaching Experience 🎓

Her experience as an Assistant Professor at DAVIET reflects her commitment to quality teaching and her ability to guide students in electronics and communication subjects. She has also participated in faculty development programs and short-term courses to enhance her pedagogical skills, ensuring that she remains up-to-date with modern teaching methodologies.

Awards and Honors 🏆

Dr. Singh has earned recognition for her work, including the Best Paper Award at the IC3ICT-2015, presented in Bangalore. She has been honored for her outstanding academic performance, having received the MHRD scholarship for her M.Tech. and Ph.D. studies. Her scholarly excellence has been recognized with multiple GATE qualifications and National Science Olympiad achievements.

Legacy and Future Contributions 🌱

Dr. Sadhana Singh’s legacy lies in her contributions to both academia and research. With a rich background in low-power VLSI circuits, nanotechnology, and communication systems, her work is expected to influence the design and development of next-generation electronics and communication technologies. Her research can significantly impact the evolution of 5G and future wireless communication systems. Moving forward, she aims to deepen her expertise in nanoelectronics and VLSI, paving the way for breakthroughs in energy-efficient technologies.

Publications Top Notes

Recent Advancements in Wide Band Semiconductors (SiC and GaN) Technology for Future Devices

  • Authors: S. Singh, T. Chaudhary, & G. Khanna
    Journal: J. Silicon
    Year: 2021

Performance and Comparative Analysis of Heterojunction Structure based GAA-NWTFET for Low Power Applications

  • Authors: S. Singh, T. Chaudhary
    Journal: J. Silicon
    Year: 2021

Gate-All-Around Nanowire TFET with Heterojunction and Core Insulator: Design and Analysis

  • Authors: S. Singh, T. Chaudhary
    Journal: ECS Journal of Solid State Science and Technology
    Year: 2021

Estimation of process-induced variability in SiGe-GAA-NWTFET to improve reliability

  • Authors: S. Singh, T. Chaudhary
    Journal: J. Micro and Nanostructures
    Year: 2024

A Modified Clipping Algorithm for Reduction of PAPR in OFDM Systems

  • Authors: Sadhana Singh and Arvind Kumar
    Conference: Proc. IEEE International Conference on Computational Intelligence and Computing Research (ICCIC)
    Year: 2015

 

 

 

Mohaddeseh Shahabi Nejad | Nanomaterial | Member

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Dr. Mohaddeseh Shahabi Nejad | Nanomaterial | Member

PHD at Shahid Bahonar University of Kerman, Iran

Mohaddeseh Shahabi Nejad, an accomplished researcher and educator, holds a Ph.D. in Organic Chemistry from Shahid Bahonar University of Kerman. With expertise in material preparation and characterization, she has led impactful projects on nanocomposites for environmental remediation. As Head of the Laboratory of Classic Processing Processes at IBKO Company, she conducts chemical analysis and oversees research initiatives. Additionally, Mohaddeseh serves as a dedicated teacher at Shahid Bahonar University and Applied Sciences University of Kerman, imparting knowledge in chemistry and laboratory procedures. Her contributions have earned her numerous accolades, including recognition as a top researcher and Ph.D. student in her field.

Professional Profiles:

Education

Ph.D. in Organic Chemistry Shahid Bahonar University of Kerman [2013 – 2018] Final grade: 18.25/20 Thesis: Synthesis of nanoparticles and ionic liquids immobilized on magnetic supports and their application in organic reactions M.Sc. in Organic Chemistry Isfahan University of Technology [2008 – 2012] Thesis: Synthesis and characterization of modified bentonite & silica supported Au nanoparticles and use them in the solvent-free oxidation of cyclohexene with molecular oxygen B.Sc. in Chemistry Shahid Bahonar University of Kerman [2003 – 2008] HONOURS AND AWARDS Top Researcher with a Skill-Building approach in Kerman Province [2022] The Selected Research for the cover image of Applied Organometallic Chemistry (ISI, IF: 4.105, Q1) [2019] Top Ph.D. Student of Chemistry Department (Organic Chemistry Group) [2018]

Work Experiences

Head of the Laboratory of Classic Processing Processes Research and Processing Center of IBKO Company [2021 – Current] City: Kerman Country: Iran Conduct chemical analysis of minerals and geochemistry samples

HONOURS AND AWARDS

Top Researcher with a Skill-Building approach in Kerman Province [2022] The Selected Research for the cover image of Applied Organometallic Chemistry (ISI, IF: 4.105, Q1) [2019] Top Ph.D. Student of Chemistry Department (Organic Chemistry Group) [2018]

PROFESSIONAL SKILLS

Graphene & Graphene Oxide Carbon Quantum Dots Polymers and Composites Covalent Organic Framework Graphitic Carbon Nitride Biochar Metal & Metal Oxide Nanoparticles Nanocatalyst & Photocatalyst

Research Interests

Mining Analysis, Water Treatment, Carbon-Based Materials, Polymers & Composites, Metal & Metal Oxide Nanoparticles, Catalysis and Photocatalysis.

Research Focus:

Mohaddeseh Shahabi Nejad’s research primarily focuses on the synthesis and application of advanced nanomaterials for environmental remediation and catalysis. Her work encompasses various areas, including the fabrication of nanocomposites for adsorption of antibiotics and heavy metal ions from aqueous solutions, as well as the green synthesis of nanoparticles for organic dye reduction. Additionally, she explores the design and characterization of magnetic nanocatalysts for C-N and C-C cross-coupling reactions, highlighting her expertise in materials science and catalytic chemistry. Through her innovative research, Mohaddeseh contributes significantly to the development of sustainable solutions for environmental challenges and catalytic processes.

Publications

  1. Effect of modified nanocellulose on improving mechanical properties of flowable dental composite resin, Publication: 2024.
  2. Biochar/g-C3N4 nano hetero-structure decorated with pt nanoparticles for diazinon photodegradation and E. coli photodeactivation under visible light, Publication: 2023.
  3. Cellulose-wrapped graphene oxide as efficient adsorbents for pharmaceutical contaminants, Publication: 2023.
  4. Fabrication of covalently linked ruthenium complex onto carbon nitride nanotubes for the photocatalytic degradation of tetracycline antibioticPublication: 2022.
  5. Architecture of chitosan chains with sulfur‐doped carbon dots along with decorating CeO2 nanoparticles for the photocatalytic application, Publication: 2022.
  6. Enhanced visible-light photocatalytic activity of ZnS/S-graphene quantum dots reinforced with Ag2S nanoparticles, Publication: 2022.
  7. Oriented growth of copper & nickel-impregnated δ-MnO2 nanofilaments anchored onto sulfur-doped biochar template as hybrid adsorbents for removing phenolic compounds by, Publication: 2022.
  8. Assembly of CuO nanorods onto poly (glycidylmethacrylate)@ polyaniline core–shell microspheres: Photocatalytic degradation of paracetamol, Publication: 2021.
  9. Green synthesis of Ag nanoparticles on the modified graphene oxide using Capparis spinosa fruit extract for catalytic reduction of organic dyes, Publication: 2021.
  10. Adsorption of tetracycline antibiotic from aqueous solutions onto vitamin B6-upgraded biochar derived from date palm leaves, Publication: 2020.
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Muhammad Khuram Shahzad | Nano Materials | Member

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Assist Prof Dr. Muhammad Khuram Shahzad | Nano Materials | Member

Assistant Professor at Khwaja Fareed University of Engineering and Information Technology, Pakistan

Dr. Muhammad Khuram Shahzad is an Assistant Professor at Khwaja Fareed University of Engineering and Information Technology (KFUEIT), Pakistan. With a Ph.D. in Physics from Harbin Institute of Technology, China, he specializes in up-conversion nano-materials for biological applications, hyperthermia, and cancer treatments. He has 28 international publications with an impressive impact factor of 250.31. Dr. Shahzad has completed projects funded by Pakistan Science Foundation and Chinese Scholarship Council, focusing on efficient synthesis and preparation of up-conversion nanoparticles. Recognized for his research excellence, he has received awards from the Higher Education Commission of Pakistan and the Prime Minister’s office, showcasing his dedication to advancing scientific knowledge.

Professional Profiles:

Education

Ph.D. Physics, 2019 – Harbin Institute of Technology, China Master of Philosophy (M.Phil), 2015 – Department of Physics, University of Agriculture, Faisalabad, Pakistan Master of Science (M.Sc.) Physics, 2011 – Government College University Faisalabad, Pakistan Bachelor of Science (B.Sc.) Physics, 2006 – University of the Punjab, Lahore, Pakistan

Work Experience

Lecturer in Physics: Masomeen College for Advanced Studies, Chiniot (2010-2015) Post Doc Position: Henan University, Kaifeng China (4, December 2019 – 30, September 2020) Assistant Professor: KFUEIT (30, September 2020 – Present)

Research Experience

Six (6) years research experience in the field of up-conversion (UC) nano-materials for biological applications, hyperthermia and cancer treatments, sensors, thin films, nanotechnology, DFT, and Optogenetics Total publications: 28 International Publications: 28 International Impact factor: 250.31 Submitted articles: 3 International journal’s reviewer: Physical and Engineering Sciences in Medicine, Biomedical optics express, Journal of biological chemistry, Pakistan journal of biological science

Awards / Achievements

Awarded best researcher by Higher Education Commission of Pakistan on 04, November-2022 Won laptop and certificate by Prime Minister of Pakistan for best young researcher in Pakistan in 2015. CSC scholarship for doctoral degree admission in China from 2016 to 2019. Sparkle fellowship on 20 December 2020 (Ireland).

Research Focus:

Muhammad Khuram Shahzad’s research primarily focuses on nanomaterials and their applications in biomedical engineering, particularly in the fields of hyperthermia therapy and optical sensing. His work includes the synthesis and characterization of nanoparticles for photo-hyperthermia therapy, as well as the development of optical temperature sensing probes using nanostructured materials. Additionally, Shahzad investigates the use of nanocomposites for contaminant removal and solar-to-fuel conversion. His contributions span various disciplines, including nanotechnology, photonics, and materials science, aiming to advance knowledge and technology for biomedical and environmental applications.

Publications

  1. Fermented Corn Stalk for Biosorption of Copper(II) from Aqueous Solution, cited by: 2, Publication: 2018.
  2. A DFT study of structural, electronic, optical, thermal and mechanical properties of cubic perovskite KGeX3 (X = Cl, Br) compound for solar cell applications, cited by: 1, Publication: 2024.
  3. Structural, electronic, optical, and mechanical properties of cubic perovskite LaMnX3 (X = Cl, Br, I) compound for optoelectronic applications: a DFT study, Publication: 2024.
  4. Structural, Electronic, Mechanical, and Optical properties of the lead-free halide perovskites XGeCl3(X = Cs, K, and Rb) for the photovoltaic and optoelectronic applications, Publication: 2023.
  5. Analysis of gold nanospheres, nano ellipsoids, nanorods, and effect of core–shell structures for hyperthermia treatment, Publication: 2022.
  6. Influence of VO2 based structures and smart coatings on weather resistance for boosting the thermochromic properties of smart window applicationsPublication: 2022.
  7. Zirconium-based cubic-perovskite materials for photocatalytic solar cell applications: a DFT study, Publication: 2022.
  8. Investigation on optical temperature sensing behaviour via Ag island-enhanced luminescence doped β-NaGdF4:Yb3+/Tm3+ films/microfibers†Publication: 2021.
  9. Facile preparation of upconversion microfibers for efficient luminescence and distributed temperature measurement†, Publication: 2019.
  10. Dispersing upconversion nanocrystals in PMMA microfiber: a novel methodology for temperature sensing, Publication: 2018.
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Muhammad Junaid | Nanotechnology | Member

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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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