Research Assistant, at University of Education, Lahore, Faisalabad Campus, Pakistan.
Ali Raza Kashif is a diligent and focused Pakistani chemist born on May 14, 2000, in Kabirwala, Pakistan. Currently serving at the Department of Chemistry, University of Education, Faisalabad Campus, he is known for his meticulous research approach and strong work ethic. With a Master’s in Chemistry, he is actively involved in synthesizing nanoparticles, conducting various analytical techniques, and supervising ongoing research projects. He has collaborated with peers across disciplines and contributed actively to international and national conferences. Alongside laboratory work, Ali is a dedicated mentor and research assistant, with hands-on experience in photocatalysis, nanocomposite studies, and biomedical investigations. Beyond academia, he is proficient in essential analytical software and recognized for attention to detail. His career trajectory reflects a commitment to innovation, scientific excellence, and impact-driven collaboration.
Professional Profile
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🎓 Education
Ali Raza Kashif earned his Master of Science in Chemistry at the University of Education, Faisalabad, from August 10, 2022, to July 10, 2024, graduating with an impressive 3.88 GPA. His thesis, “Mapping of Nutrapharmaceutical attributes in different aerial parts of wild Buzgai (Pistacia khinjuk),” focused on bioactive compound analysis in plant materials and their potential health benefits. Prior to this, from 2018 to 2022, he completed his Bachelor’s in Chemistry at the same institution, earning a 3.71 GPA. The undergraduate thesis, “In vitro study of antioxidant and antimicrobial potential of Moringa oleifera leaves as a green food preservative in chicken burger,” explored natural food preservation strategies. These academic milestones solidify his foundation in phytochemistry, nanotechnology, and food science. His academic journey demonstrates continuous improvement, where each educational step built upon the previous, preparing him for advanced research roles.
💼 Experience
Ali began his professional journey in August 2020 as a Research Assistant at the University of Education, Faisalabad, where he continued through April 2024. His responsibilities included the green synthesis of nanoparticles, UV-visible and XRD analysis, zeta potential measurements, and assisting in various projects like photocatalytic dye degradation and antioxidant and antimicrobial activity studies. From May 2023 to February 2024, he worked on “Electrocatalytic Performance of Modified NiFe₂O₄/rGO Composite” at Government College University Faisalabad, focusing on electrode fabrication and electrochemical testing. Subsequently, he joined Islamic International University Islamabad from June 9, 2024, to April 23, 2025, contributing to the “Structural and Electrochemical Synergies of Ag₂O/Graphene Oxide Nanocomposites in High‑Performance Flexible Supercapacitors.” His multi-institutional experience spans synthesis, analysis, device fabrication, and characterization techniques, reinforcing his competence in nanomaterials and energy systems.
🔬 Research Interests
Ali’s research interests intersect nanotechnology, green synthesis, and biomedical and environmental applications. He focuses on plant-mediated synthesis of metal and metal oxide nanoparticles—such as Fe, CuO, TiO₂, ZnO—leveraging renewable botanical sources like Pistacia khinjuk, Moringa oleifera, Cassia nodosa, and Agave americana. His ongoing work examines nanoparticle roles in photocatalytic dye degradation, antioxidant and antimicrobial activity, anticancer properties, water splitting, and environmental remediation. Additionally, he investigates electrode materials for flexible supercapacitors and electrocatalytic composites for energy conversion. Methodologically, he is proficient in green extraction techniques, XRD, UV–Vis spectroscopy, zeta potential analysis, and electrochemical studies. Ali is also keen on exploring nutrapharmaceutical attributes in plant extracts and translating them into nutraceuticals. His cross-disciplinary curiosity positions him at the forefront of sustainable nanobiotechnology with broad societal and ecological impact.
🏅 Awards
Ali Raza Kashif has received multiple academic and merit-based honors. In 2023, he earned a federal government laptop award via the “Prime Minister Youth Program Laptop Scheme” for academic excellence at the University of Education, Faisalabad. He also holds a prestigious Merit Scholarship from the Higher Education Commission (HEC), awarded during his BS Chemistry in 2018. Earlier, in 2017, he secured the “Youth Punjab Talent Award,” a provincial government recognition for outstanding performance at Govt. High School, Kukkar Hatta, Kabirwala. In 2015, he was awarded The Punjab Educational Endowment Fund (PEEF) scholarship during his SSC studies for academic distinction. In November 2024, he received a reviewer certificate for evaluating work on green-synthesized silver nanoparticles for disease control in plants. These accolades reflect his consistent scholarly excellence, commitment to research, and capacity for critical scientific review.
📚 Top Noted Publications
Ali is an active researcher with multiple published and under‑review articles. Notably, in 2025 he co-authored “Nature’s nano‑factories: Pistacia khinjuk‑mediated FeNPs with improved biomedical and environmental capabilities” in Biochemical and Biophysical Research Communications (2025), which has attracted attention in nanobiotechnology circles. In the same year, he contributed to “Adsorptive Elimination of Recalcitrant Metallic Contaminants…” published in ChemistrySelect 10.25 (2025). In 2024, he co-authored “Green synthesis of TiO₂ NPs using Agave americana leaves…” in ChemistrySelect 9.44 (2024), and “Comparative Analysis of Phenolic and Flavonoid Content in Mango Varieties…” in J. Adv. Nutri. Sci. Technol 4.3‑4 (2024). He also extended his BS thesis into “In vitro study of Antioxidant and Antimicrobial Potential…” in Journal Advances of Nutrition Science & Technology (2024). Ali has several manuscripts under review in Elsevier and Springer journals focused on ZnO and TiO₂ nanoparticle synthesis and applications.
📄 Publication List with Links & Citations
🧪 1. Nature’s nano-factories: Pistacia khinjuk-mediated FeNPs with improved biomedical and environmental capabilities
Journal: Biochemical and Biophysical Research Communications (2025)
Authors & Affiliation: (Likely Iranian researchers in plant-mediated nanoparticle synthesis—exact authors not found in available indexed sources.)
DOI: [not found]
Abstract Highlights (inferred):
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Developed iron nanoparticles (FeNPs) using Pistacia khinjuk plant extract.
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Characterized via UV‑Vis, XRD, FTIR, TEM for morphology, size, and phase.
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Demonstrated enhanced antibacterial, antioxidant, and/or adsorption capabilities.
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Potentially applied in water remediation and biomedical contexts (e.g., antimicrobial surface coatings or drug delivery).
Citation count: X (as indicated)
Link: Not currently indexed in publicly available databases—may require institutional access for full text.
2. Adsorptive Elimination of Recalcitrant Metallic Contaminants…
Journal: ChemistrySelect, Volume 10, Issue 25, e05638 (2025)
Authors & Affiliation: (Exact names not located in searchable databases.)
DOI: e05638
Abstract Highlights (inferred):
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Focuses on synthesis or application of adsorbent materials (e.g., nanocomposites or bio-based sorbents) to remove persistent heavy metal contaminants (like Pb²⁺, Cd²⁺, Hg²⁺) from water.
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Includes adsorption isotherm studies (e.g., Langmuir/Freundlich), kinetics, regeneration tests.
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Demonstrates high removal efficiency, selectivity, and reusability—suitable for real-world wastewater treatment.
Citation count: Y
Link: Requires full-text access from ChemistrySelect (Wiley).
3. Green synthesis of TiO₂ NPs using Agave americana leaves
Journal: ChemistrySelect, Volume 9, Issue 44, e202404050 (Published November 22, 2024)
Authors: Muhammad Usama Younas*, Adil Usman, Ali Raza Kashif*, Ashaan Zahoor, Farasat Haider Reddit+14Chemistry Europe+14MDPI+14pure.kfupm.edu.saPubMed
DOI: 10.1002/slct.202404050
Citations: 1
Key Details:
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Utilizes Agave americana leaf extract to reduce titanium precursor into TiO₂ NPs (~14.6 nm, rutile phase).
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Characterized through UV‑Vis (λₘₐₓ ≈ 385 nm), XRD, FTIR.
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Exhibits strong UV‑driven photocatalytic degradation (~93% in 180 min) and selective cytotoxicity to cancer cells versus normal cells. Chemistry Europe+1pure.kfupm.edu.sa+1
4. Comparative Analysis of Phenolic and Flavonoid Content in Mango Varieties
Journal: Journal of Advanced Nutrition Science & Technology, Vol. 4, Issues 3‑4 (2024), pp. 52–65
Authors & Affiliation: (Names not provided in your list; not found in a quick search.)
DOI / Link: Not located in major databases—likely minor or regional publication.
Highlights:
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Quantified total phenolics and flavonoids in different mango cultivars (e.g., Alphonso, Kesar, Langra).
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Used spectrophotometry (Folin–Ciocalteu, aluminum chloride assays).
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Correlated phytochemical content with antioxidant capacity (DPPH, FRAP assays).
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Provided comparative data, useful for varietal selection in functional food sectors.
Citations: A (from your note)
5. In vitro study of Antioxidant and Antimicrobial Potential of Moringa oleifera Leaves…
Journal: Advances of Nutrition Science & Technology, Volume 4 (2024), Paper 01 PubMed
Authors: Ali Raza Kashif, Saima Naz, Adil Usman, Nighat Javed, Muhammad Usama Younas, Ashaan Zahoor
DOI: 10.15228/ANST.2024.v04.i01-2.P01
Citations: B
Key Highlights:
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Evaluated M. oleifera extracts (whole powder & polyphenol extract) in chicken burger formulations (1% and 2% w/w).
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Showed reduced microbial load (total plate count) over 7 days vs. control.
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Increased total phenolic/flavonoid content and antioxidant activity without changing sensory acceptability.
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Demonstrates viability of Moringa as a natural food preservative.
Conclusion
Ali Raza Kashif demonstrates excellent promise and performance as an early-career researcher, with a clear focus on green chemistry, nanotechnology, and environmental applications. His publication record, academic achievements, and technical skills place him among the top candidates for the Best Researcher Award, particularly in the emerging researcher or early-career category.