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Also covered is phase behaviour, structures and properties of thermotropic and lyotropic liquid crystals, block copolymers, and ordered colloidal dispersions. Above: Chemical patterning of a polymer film.


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Nature This module covers the principles of surface and interface chemistry. This module covers the physics and applications of low-molecular and polymeric organic semiconductors. The first part of the module will discuss how semiconducting properties can arise in organic materials, and the issues of light absorption and emission, charge injection, and charge transport in organic semiconductors, as well as the processing of organic semiconductors.

The second part of the module will discuss current and future devices based on organic semiconductors: photocopiers, synthetic metals, organic transistors, organic light emitting devices and organic photovoltaics.

Nanoscale Science and Technology MPhil, PhD

Above: Existing cellular machinery driven by biochemicals such as ATP can serve as templates for new nanotech devices. This module covers: interactions of biological molecules with surfaces; manipulation of bio-molecules on surfaces; transduction and control of materials and information through biological interfaces; bilayers; bioelectronics; biosensors. Above: Photograph of a student using a high resolution field emission gun FEG transmission electron microscope.

Masters MSc course in nanoscale science and technology Full-time MSc study entails a month programme, split between Leeds and Sheffield campuses. In order to complete the full MSc programme, you must complete the eight lecture modules and a major project, as described below. Each module is valued at 15M Masters credits , and the project is valued at 60M, giving a total of M credits. Above: Image of a gold nanoparticle.

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Module 1: Generic methodologies for nanotechnology CMNS This module covers the principles of nanostructure production, laboratory preparation and the limitations of materials, including nanoscale fabrication and characterisation technologies, and commissioning as well as working in ultra-clean environments. Module 1.

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Above: AFM image of a quantum dot. Module 2: Inorganic semiconductor nanostructures PHY This module covers the physics and technology of semiconductor nanostructures, considering both the present status and possible future trends. Module 2. Module 3: Nanoscale magnetic materials and devices MAT This module will review basic magnetic properties, and demonstrate how control of the nanostructure in bulk materials, optimised growth of thin films and multi-layers and nanoscale patterning are opening up new areas of science and technology.

What is Nanoscale Science? - NIMET: Nanoscience Institute for Medical & Engineering Technology

Module 3. Module 4: Processing and properties of inorganic nanomaterials CMNS This module covers the application of the physical principles underlying microstructural control on the nanometre scale to design an appropriate synthesis route for inorganic nanomaterials including: preparation, properties and characterisation of nanostructured materials and nanoparticles; interaction with surfaces; catalysis; applications.

Module 4. Module 5: Self-assembling nanostructured molecular materials and devices CMNS This module covers the principles of self-assembly, self-organisation and its application to biology. Nanoscience and nanotechnology involve the ability to see and to control individual atoms and molecules. Everything on Earth is made up of atoms—the food we eat, the clothes we wear, the buildings and houses we live in, and our own bodies.

But something as small as an atom is impossible to see with the naked eye. The microscopes needed to see things at the nanoscale were invented relatively recently—about 30 years ago. Alternate-sized gold and silver particles created colors in the stained glass windows of medieval churches hundreds of years ago. Search Keywords Submit Search. Skip main navigation Nano.

Physicist Richard Feynman, the father of nanotechnology. Here are a few illustrative examples: There are 25,, nanometers in an inch A sheet of newspaper is about , nanometers thick On a comparative scale, if a marble were a nanometer, then one meter would be the size of the Earth Nanoscience and nanotechnology involve the ability to see and to control individual atoms and molecules.