Doctoral at UET, lahore ,Pakistan
Sajida Nawaz is a dedicated physicist and emerging researcher in the field of nanotechnology and biomedical materials. With a background rooted in applied and theoretical physics, she brings strong interdisciplinary insight into the development of innovative nanomaterials for medical and environmental applications. Her work bridges physics, materials science, and biomedical engineering, with a focus on sustainable and biocompatible solutions. She has contributed to multiple collaborative research projects and has represented her work through international conferences and poster presentations. Sajida is highly regarded for her commitment to scientific excellence, detailed experimentation, and hands-on proficiency in advanced characterization techniques. As a visiting scholar, she has extended her academic reach internationally, exploring new methodologies and forming global collaborations. Her drive to address real-world challenges through nanoscience places her at the forefront of applied research, where she continues to grow as a promising scientist contributing to innovative solutions in healthcare and ecological sustainability.
Professional Profile
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Education
Sajida Nawaz has pursued a structured and in-depth academic path grounded in physics and nanoscience. She began with a foundational degree in physics, where she developed strong analytical and problem-solving skills. Her academic progression continued through postgraduate studies in applied physics, deepening her understanding of material behavior and experimental methods. Furthering her academic journey, she is now engaged in advanced doctoral research with a focus on nanotechnology and biomedical applications. Her academic training has equipped her with a robust understanding of physical principles, along with specialized skills in nanoparticle synthesis, laser-material interaction, and surface morphology. Sajida’s academic work includes the successful completion of dissertations and theses centered on the physicochemical properties of nanomaterials and the impact of irradiation on polymers. Her education blends theoretical learning with practical lab expertise, which has enabled her to contribute meaningfully to scientific research, publications, and collaborations in both national and international academic environments.
Experience
Sajida Nawaz has gained extensive research and academic experience through a combination of institutional affiliations and international collaborations. She has worked in advanced laboratories focused on material science and nanotechnology, where she developed expertise in techniques such as UV-Vis spectrophotometry, FTIR, XRD, TGA, FESEM, and TEM. Her experience spans both academic and applied research, including the synthesis and characterization of nanomaterials for medical and ecological applications. She has presented her work at scientific workshops, international conferences, and research competitions. As a visiting research scholar at a prominent center for nanotechnology, she expanded her technical capabilities and built global academic networks. Sajida has also co-authored several peer-reviewed articles in reputed journals, demonstrating her ability to contribute meaningfully to interdisciplinary scientific discussions. Her hands-on experience with high-end instrumentation and collaborative projects reflects her capability to work in diverse research settings while contributing original ideas and experimental precision to complex scientific challenges.
Research Focus
Sajida Nawaz’s research focuses on the intersection of nanotechnology, biomedical engineering, and material science. Her work involves the synthesis and application of biocompatible nanoparticles and nanofibers, particularly for drug delivery and vector control. She specializes in electrospinning and electrospraying techniques to produce functional nanomaterials, often integrating essential oils and chitosan to develop eco-friendly acaricides. Her research also explores laser-matter interaction and polymer surface morphology for industrial and healthcare purposes. Sajida employs a variety of advanced tools, including FESEM, UV-Vis spectrophotometry, XRD, FTIR, and TGA to characterize materials and evaluate their therapeutic and structural properties. She is particularly interested in creating sustainable and effective solutions for disease prevention using nanomedicine and bioassays. Her investigations extend to both theoretical modeling and practical applications, positioning her work at the frontier of global scientific needs. Through collaborative international research, she continues to contribute to advancements in medical nanotechnology and environmental health solutions.
Publication Top Notes
Title: Synthesis, Characterization, and Biocompatibility of Pure and Doped Magnetite Nanoparticles for Magnetic Hyperthermia in Cancer Treatment
Authors: JU Hassan, S Shahzadi, F Waheed, S Nawaz, R Sharif, S Riaz, D Ban
Journal: Applied Physics A
Summary: This research focuses on the preparation and analysis of magnetite nanoparticles, both pure and doped, for use in magnetic hyperthermia cancer therapy. The study evaluates their structural, magnetic, and biocompatibility characteristics, suggesting their promise as safe and effective agents for non-invasive cancer treatment.
Title: Biocontrol Potential of Nano-Encapsulated Essential Oil Crosslinked with Chitosan Nanoparticles Against Tick-Borne Diseases
Authors: S Nawaz, S Shamaila, M Oneeb, JU Hassan, S Ahmad, S Ramakarshina, et al.
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Summary: This paper investigates the antimicrobial and pesticidal efficacy of essential oils nano-encapsulated with chitosan for controlling ticks. The formulation exhibited enhanced stability and biocontrol properties, offering a potential eco-friendly solution to tick-borne disease management.
Title: ITSM Applications Within Selected Logistics and Transport
Authors: MN Tariq Niamat, Waqar Azeem, Saira Imtiaz, Sajida Nawaz, Kainat Ilyas
Journal: Pakistan Journal of Scientific Research (PJOSR)
Summary: This study assesses the implementation of IT Service Management (ITSM) systems in logistics and transport operations. It discusses how ITSM enhances workflow, reduces operational downtime, and improves service delivery, thereby contributing to digital transformation in supply chains.
Title: AEOF Nano-Encapsulated
Journal: Journal of Population Therapeutics & Clinical Pharmacology
Summary: This article explores the pharmacological potential of nano-encapsulated AEOF compounds. The study emphasizes improved bioavailability, controlled release, and therapeutic targeting, highlighting implications for enhanced drug delivery and patient outcomes in clinical treatments.
Conclusion
Sajida Nawaz exemplifies a new generation of interdisciplinary researchers committed to addressing global health and environmental challenges through science and innovation. With strong academic foundations and hands-on expertise in nanotechnology, she merges theoretical knowledge with real-world applications. Her active participation in collaborative research, both nationally and internationally, reflects her dedication to learning and contributing to global scientific progress. Sajida’s research not only enhances academic understanding but also holds tangible promise for improving lives, particularly in the areas of disease control and sustainable biomedical solutions. Her continued pursuit of innovation through international exposure and scientific inquiry underlines her role as a proactive and forward-thinking scholar. As she advances her doctoral studies and expands her publication record, Sajida remains committed to building bridges across disciplines and borders. Her trajectory signals a career marked by purpose, precision, and potential, making her a valuable contributor to the evolving landscape of nanoscience and applied physics.