Active polymer surfaces for control of fluid movement. The realisation of a diverse array of remote or portable chemical/biological monitoring systems depends on the development of low power fluid management protocols. The use of appropriate conducting polymer surfaces should enable this to occur. We envisage the integration of these fluid management platforms into portable, remote autonomous monitoring systems for environmental industrial and biomedical applications.
Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'futur ....Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'future' of optical fibres. Low-loss flexible waveguides will enable imaging and spectroscopy applications that can reveal and object's internal structure and composition. This will have immediate applications in security, quality control, medical imaging and other safety or industrial applications.Read moreRead less
Micro-patterning of fluoropolymer surfaces for electronic and biomaterials applications. Formation of micro-patterned structures on fluoropolymers including PTFE, FEP and PVDF will be performed using micro-contact printing techniques in combination with surface graft co-polymerisation; an innovative convergence of two emerging technologies. Surface modification and structures formed will be investigated using contact angle measurements and mapping, and surface analytical techniques (XPS and TOFS ....Micro-patterning of fluoropolymer surfaces for electronic and biomaterials applications. Formation of micro-patterned structures on fluoropolymers including PTFE, FEP and PVDF will be performed using micro-contact printing techniques in combination with surface graft co-polymerisation; an innovative convergence of two emerging technologies. Surface modification and structures formed will be investigated using contact angle measurements and mapping, and surface analytical techniques (XPS and TOFSIMS). Processing methodologies will be identified which allow formation of micrometre scale tracks, and selected area deposition of sensor films and reactive biomaterials. Trial device fabrication will be undertaken using conditions and device structures similar to those required for production of diagnostic sensors and arrays, and polymer-based electronic devices.Read moreRead less