Use of Gas Expanded Liquids to Facilitate Process Intensification. The aim of this research is the utilisation of gas expanded liquids (GXLs) in technology platforms based on the principles of process intensification (PI). In order to facilitate the attainment of project objectives a comprehensive investigation of the fundamental properties of GXLs, and their interactions is proposed. A significant component of the programme is expected to be to use the knowledge obtained to facilitate the devel ....Use of Gas Expanded Liquids to Facilitate Process Intensification. The aim of this research is the utilisation of gas expanded liquids (GXLs) in technology platforms based on the principles of process intensification (PI). In order to facilitate the attainment of project objectives a comprehensive investigation of the fundamental properties of GXLs, and their interactions is proposed. A significant component of the programme is expected to be to use the knowledge obtained to facilitate the development of scale-up protocol for PI based methodologies, with particular emphasis on the production of biomaterials. GXLs technology is frontier technology with regard to the biomaterials sector.Read moreRead less
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.
Production of nano-composite particles for inhalational delivery of combination drugs. The project seeks to create a new particle engineering process for pharmaceuticals. The successful outcome will i) enhance substantially the competitiveness of Australia’s research in functional nanomaterials and advanced biomaterials, and ii) benefit the Australian pharmaceutical industry in developing proprietary pharmaceutical formulations.
Novel nano-composite particles for controlled-release drugs via inhalation. This project will explore a novel nano-medicine technology using nanocrystals in liposomes to design new composite particles to enable optimal release of antibiotics delivered by inhalation. Respiratory infection caused by multidrug-resistant bacteria is a major health problem worldwide. Controlled-release products using liposomes simplify dose regimen and enhance bacterial killing. Currently, aerosolised liposomes are l ....Novel nano-composite particles for controlled-release drugs via inhalation. This project will explore a novel nano-medicine technology using nanocrystals in liposomes to design new composite particles to enable optimal release of antibiotics delivered by inhalation. Respiratory infection caused by multidrug-resistant bacteria is a major health problem worldwide. Controlled-release products using liposomes simplify dose regimen and enhance bacterial killing. Currently, aerosolised liposomes are limited to liquid forms with limited control over release and stability. The project will provide new technology on manufacturing composite powders of antibiotics that may ultimately lead to the development of effective new treatments against drug-resistant bacteria.Read moreRead less