Fundamentals and applications of continuous-flow microprocessing systems based on supercritical fluids and gas expanded liquids. Microchemical systems have considerable potential in the area of chemical discovery and development. Practical application of these systems requires fundamental understanding and strategies for conversion to appropriate scale. The aim of this project is to overcome such challenges in the development of microstructured continuous-flow technology.
Targeted process development for drug delivery. Matrix assisted ball milling and continuous flow process intensification on rotating surfaces in the form of spinning discs and rotating tubes, and combinations of these, allow the fabrication of nanoparticles for the pharmaceutical industry, with the ability to fine tune the properties of the particles to improve their uptake profiles, while minimising side effects. The research will be conducted through the Centre for Strategic Nano-Fabrication w ....Targeted process development for drug delivery. Matrix assisted ball milling and continuous flow process intensification on rotating surfaces in the form of spinning discs and rotating tubes, and combinations of these, allow the fabrication of nanoparticles for the pharmaceutical industry, with the ability to fine tune the properties of the particles to improve their uptake profiles, while minimising side effects. The research will be conducted through the Centre for Strategic Nano-Fabrication with its science based attention to quality by design for product development at the inception of the science. This, coupled with the involvement of iCeutica which has a strong commercially focused R and D profile, provides a more innovative research culture, and excellent research training. Read moreRead less
Development of the methods to tailor photocatalytic activity of ZnO nanoparticles. This project aims at the development of the methods to tailor the photocatalytic activity of ZnO nanoparticles. Methods to both enhance and reduce the photocatalytic activity for specific applications will be investigated, and the physical and chemical mechanism of photocatalysis-control will be studied. The method developed will be applied for a commercial scale production of ZnO nanoparticles. The effects of ....Development of the methods to tailor photocatalytic activity of ZnO nanoparticles. This project aims at the development of the methods to tailor the photocatalytic activity of ZnO nanoparticles. Methods to both enhance and reduce the photocatalytic activity for specific applications will be investigated, and the physical and chemical mechanism of photocatalysis-control will be studied. The method developed will be applied for a commercial scale production of ZnO nanoparticles. The effects of (a) impurity doping inside of the particles, (b) particle coating, (c) size and morphologies of the particles, and (d) ion-adsorption of the particle surface, to the photocatalytic activity of ZnO nanoparticles will be investigated. The methods developed will be applied for a commercial scale production of ZnO nanoparticles by ANT.Read moreRead less
A nanoengineered solution to drug delivery in bone. This project presents an exciting new approach of applying nanotechnology to bone research. By combining our expertise in nanoengineering of new materials, mathematical modelling and bone biology, this project will result in a well-characterised model for drug delivery into bone and lead to a new therapeutic approach for treating bone diseases.