Dr Marcus Newton
No more applications being accepted
Funded PhD Project (European/UK Students Only)
About the Project
There is growing economic and social need to transition to renewable energies to meet the impending challenges of climate change. Renewable energy will contribute to safeguarding energy security and help to reduce fossil fuel dependency. Our everyday environment has an abundance of energy sources, the choice of which depends on accessibility, implementation and conversion efficiency. These include solar, geothermal, mechanical, magnetic, chemical and biological. Due to the potential benefits of nanostructured materials, there is currently a vibrant research effort for their utilisation in low cost and robust devices. With the drive to device portability and miniaturisation beyond the nanoscale, development of robust renewable power sources as an alternative to batteries is an attractive prospect. The aim of this project is to develop low cost solution processable mechanical and vibrational energy harvesting technologies based on low cost and environmentally friendly nanomaterials. The objective will be to deliver functional devices with energy densities sufficient for remote applications. The scientific challenge is to develop the materials and methods for integration into a range of energy harvesting device structures. We have identified a class of nanomaterials that are an ideal choice for device integration due to their unique properties that can lead to enhanced functionality. A key theme in this project is to investigate the optimal choice of nanomaterial-polymer composite that provides the optimal energy conversion efficiency. Another key aspect is the evaluation of the material in practical energy harvesting application. In this project, you will focus on either (1) the fabrication and optimisation of nanostructured materials and their application onto an energy harvesting structure for use in a real application scenario or (2) materials design using coherent X-ray imaging at the Diamond Light Source. Both aspects will use the state-of-the-art facilities within the Southampton Nanofabrication Centre. This project is a collaboration with the Electronic Systems and Devices Group in the faculty of Electronics and Computer Science (ECS).
Applications are invited from bright and highly motivated students with a background in physics, materials science, inorganic chemistry or a related field. The successful candidate will need to be a UK national and have obtained either a First or Upper Second class honours degree.
Informal enquiries should be directed to Dr. Marcus Newton, [Email Address Removed].
To apply, please complete an online application form via the following link: http://www.southampton.ac.uk/postgraduate/pgstudy/howdoiapplypg.html