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Gear up for jobs in high-demand fields: data analytics, digital marketing, and more.The new field of 2-dimensional (2-d) materials has seen exponential growth since the isolation of graphene, a single atomic layer of carbon atoms, at University of Manchester in 2004. What is a 2-d material, and how is it different to 3-dimensional materials that we encounter every day? How does the 2-d nature affect the material’s properties, for instance, how do electrons living in a 2-d world behave? How would we harness the unique properties of 2-d materials and put them to use in real-world applications? We will answer these questions and more in this course on Graphene and other 2-d materials.
The course will describe how a number of key aspects of the broader field of nanomaterials are applied to study 2-d materials, including methods of production such as chemical vapour deposition, characterisation techniques such as Raman spectroscopy and electron microscopy, and the production of nano-electronic and nano-composite structures.