Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as b ....Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as blood glucose monitors for diabetes management. In collaborations with research groups worldwide, these materials will also be applied to the preservation of bioactivity in applications including cryopreservation of endangered species such as coral and in medical therapeutics. Read moreRead less
Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship ....Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship would: facilitate global participation in cutting-edge science derived from electrochemical and green chemical concepts; provide commercial opportunities for new and mature chemical industries; expand postgraduate training; and promote technology exchange with Australian and international leading-edge research organisations.Read moreRead less
Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the ....Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the light alloys. It will also provide leadership in a new national research activity in light metal hybrid structures, targeted at innovation in materials design and the expansion of markets for the light metals. It will underpin major developments in the light metals industry nationally and globally, and extend linkages with major research centres internationally.Read moreRead less
Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a ....Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a reduction in the use of organic pollutants, new methods for colloidal processing that will enable the preparation of new materials, and new surface coatings for increasing the useful life-time of medical implants.Read moreRead less
Nanoengineered Colloids and thin films through self-assembly with potential applications in Bioscince and Nanotechnology. The proposed research program will focus on the preparation, characterisation and application of novel, small (nanometer size) particles and thin (micrometer thick)films derived from such particles. These new and advanced materials will be prepared by usinf a recently developed, highly versatile and facile technology to coat particles in solution. The strategy to be used en ....Nanoengineered Colloids and thin films through self-assembly with potential applications in Bioscince and Nanotechnology. The proposed research program will focus on the preparation, characterisation and application of novel, small (nanometer size) particles and thin (micrometer thick)films derived from such particles. These new and advanced materials will be prepared by usinf a recently developed, highly versatile and facile technology to coat particles in solution. The strategy to be used entails the step-by-step construction of well-defined layers of different composition on particles and flat surfaces, thereby allowing unprecendented control over the material properties and function. This will provide new avenues for the application of nanoscale materials in biotechnology and nanotechnology.Read moreRead less