Our research areas within Materials Engineering include
kinetics and formation mechanisms of new materials
predictive modelling based upon mechanistic understanding
Work covers the production, property measurement and performance assessment of:
ceramics
polymers
metals
composites
Your research will focus on understanding the physical and chemical descriptions that underlie material's performance. You'll also work towards developing property and performance models of materials
We focus on developing new materials for advanced engineering applications. This includes microelectronics, optics and power transmission
Current research projects include:
developing novel surface engineering processes and materials (such as fullerene-like coating materials)
energy-based methods for performance modelling
nanomaterials and nanocharacterisation techniques
novel materials for intensified processes
One of our research strengths is measurement and modelling of the mechanical response of materials at high-spatial-resolution. This is particularly in microelectronic and optical devices. A combination of unique equipment and interdisciplinary expertise supports this. Another research focus is the materials requirements for sustainable development. This includes the use of key resources, in particular water and energy. We have significant research into the generation of:
energy from novel sources
low carbon and renewable technologies
application of materials for the healthcare sector
the clean-up of effluent and wastewater.
Our major research topics include:
fuel cells
bio-fuel cells and energy systems
gasification, cold plasma gasification
biofuel production
gas, water and solid treatment
nano-structured polymer composites for pollution control
sustainable and environmental electrochemical systems
photochemical processes and electrochemical synthesis
Our mission is to foster, promote and conduct research of international quality. We attract high-quality graduates and researchers and train them to international standards.
