Computational & QC Chemist | Modeling & Analysis
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I am a dedicated chemist with a Master’s degree specializing in computational modeling and molecular dynamics, complemented by hands on experience in analytical laboratory work and quality control protocols. My research involved trajectory simulations and complex data analysis, cultivating a rigorous, detail oriented approach to scientific inquiry. I am equally adept in practical lab environments, with training in spectroscopic analysis, sample preparation, SOP compliance, and safety standards.
This dual expertise allows me to bridge theoretical research with real-world quality assurance and analytical problem solving. I am now seeking to apply my unique blend of computational insight and laboratory precision in a quality control or analytical development role within the pharmaceutical or biotech industry. I thrive in collaborative, high-standard environments where accuracy and innovation drive results.
I am an MSc Chemist with a hybrid background in computational research and hands on analytical laboratory work. My graduate research focused on molecular dynamics simulations and trajectory analysis, developing strong skills in data modeling, computational method design, and scientific programming. This theoretical foundation is complemented by practical experience in chemical analysis, quality control procedures, spectroscopic techniques, sample preparation, and strict adherence to SOPs and safety protocols.
I have demonstrated reliability and precision in both academic and fast paced environments, supported by experience in laboratory instruction, chemical handling, and collaborative research. I am now pursuing a role where I can apply my combined expertise in data driven analysis and laboratory science to contribute to quality assurance, analytical development, or research initiatives within a regulated scientific industry.
Master of Science in Chemistry
University of Northern British Columbia (2024)
Thesis: Unphysical Behaviour of the Hinde Potential Energy Surface – implications for dissociation rate coefficients of H₂ + H₂.
Bachelor of Science in Applied Chemistry
Government College University, Faisalabad (2018)
Research Project: Effect of microwave radiation on pre-treatment in textile dyeing.
