Physics graduate and current MSc Advanced Materials Science student, with academic experience spanning nanotechnology, condensed matter physics, computational modelling, and materials engineering.
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Imperial College London
Imperial College London
Imperial College London — MSc Advanced Materials Science and Engineering
Sept 2025 – Present
Pursuing advanced training in materials science with a strong emphasis on the integration of theoretical modelling, computational tools, and experimental validation. Core modules include material simulations, machine learning for materials discovery, quantum mechanics, nanomaterials, density functional theory (DFT), electroceramics, and nuclear chemistry. Building expertise in modelling materials properties, analysing complex datasets, and applying computational approaches to real-world engineering challenges.
Trinity College Dublin
Trinity College Dublin
Trinity College Dublin — BA (Hons) Physics
Sept 2021 – May 2025 | Upper Second-Class Honours (2:1, 68%)
Comprehensive grounding in physics with a focus on condensed matter physics, nanoscience, complex fluid dynamics, polymers, advanced quantum mechanics, statistical mechanics, and electromagnetic interactions. Developed strong problem-solving skills, advanced mathematical modelling abilities, and proficiency in data analysis software.
Final Year Thesis: Development of an encapsulated piezoresistive graphene network using spray deposition of liquid-phase exfoliated graphene ink. Investigated the impact of film thickness on electrical and sensing performance, compared encapsulation methods, and applied statistical analysis to evaluate results. Awarded First-Class Honours (74%) for producing a novel, analytically rigorous project with potential applications in wearable and flexible electronics.
University of North Carolina at Chapel Hill
University of North Carolina at Chapel Hill
University of North Carolina at Chapel Hill — International Exchange Programme
Jan 2024 – May 2024 | GPA 3.7
Selected by Trinity College Dublin for an international exchange based on academic performance and research potential. Coursework included molecular quantum chemistry, condensed matter theory, advanced sensor and circuitry design, and statistical mechanics. Expanded technical knowledge while adapting to a new academic and cultural environment, further developing collaboration, presentation, and research skills.
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