

MEng Materials Science and Engineering with Nanomaterials
About this course
Materials Science and Engineering is the discipline concerned with understanding what things are made of and why different materials behave as they do, then using that understanding to design and develop better ones. It spans the full range of material types, from metals and ceramics to polymers, composites and semiconductors, and draws on physics, chemistry and engineering to connect atomic-level structure to large-scale properties and performance. Nanomaterials, which involve structures engineered at the scale of billionths of a metre, represent one of the most exciting frontiers of the field, offering properties that bulk materials cannot replicate and opening new possibilities in medicine, electronics, energy and beyond. At the University of Manchester, this four-year full-time degree includes a foundation year, giving you a strong grounding in the scientific principles you need before moving into the specialist materials curriculum. Manchester is home to one of the most diverse university research environments devoted to materials in Europe, and you will have access to that expertise and its associated facilities throughout your studies. You will develop a genuine scientific understanding of how materials are made, characterised, processed and applied, with nanomaterials integrated as a strand that runs through the programme and deepens your knowledge of advanced and emerging technologies. The degree combines taught modules with laboratory work that builds your practical and experimental skills. Graduates in Materials Science and Engineering with Nanomaterials go on to careers in a wide range of industries where advanced materials are central to innovation. These include aerospace, automotive, electronics, energy, biomedical devices, coatings and advanced manufacturing. Many graduates work in research and development roles, while others move into quality engineering, technical consultancy, patent work or manufacturing management. The degree also provides strong preparation for postgraduate study in materials science, nanotechnology, chemical engineering or physics-related fields.
Syllabus & Modules
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