The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon ....The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon these successes, in order to develop innovative analytical strategies for forensic detection of certain illicit drugs and explosives. The results of this research have the potential to revolutionise key aspects of forensic analysis.Read moreRead less
Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows is ....Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows isolation and on-line mass analysis of complex mixtures of membrane proteins for subsequent proteomic analysis, high-throughput screening or structural studies and could form the basis for further development of new commercial tools for membrane protein analysis.Read moreRead less
New Enantiomeric Separation Technologies for Natural Product, Pharmaceuticals and Environmental Pollutant Characterisation. Enantiomeric characterisation allows evaluation of drug purity for potentially harmful constituents, consumer protection against adulteration of essential oils and natural materials, and study of chemical interactions in biochemical/environmental systems. Chromatograph technologies (GC, HPLC and CE)for enantioseparation are available, however limitations prevent multicompon ....New Enantiomeric Separation Technologies for Natural Product, Pharmaceuticals and Environmental Pollutant Characterisation. Enantiomeric characterisation allows evaluation of drug purity for potentially harmful constituents, consumer protection against adulteration of essential oils and natural materials, and study of chemical interactions in biochemical/environmental systems. Chromatograph technologies (GC, HPLC and CE)for enantioseparation are available, however limitations prevent multicomponent characterisation of complete sample mixtures. Critical choices involve: choosing a chiral selector that interacts differentially upon all enantiomers; incorporation of selector into high-efficiency chromatographic systems; application to all target compounds in the sample. We will synthesise novel chiral selectors, incorporate these into new separation columns, apply ultra-high resolution 2-dimensional GCxGC to broad-spectrum chiral analysis of volatile chemical samples.Read moreRead less