Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100085
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Micro/Nanofluidic Characterisation Facility. Micro/nanofluidic characterisation facility: Microfluidics promises to enable diagnosis of medical diseases using devices which perform laboratory experiments but on a scale which means the entire system can be hand-held. Whilst the fabrication of miniaturised fluidic channels is well established, the challenge is to bring additional functions onto the chip reducing the reliance on external pumps and electronics. This facility will allow the character ....Micro/Nanofluidic Characterisation Facility. Micro/nanofluidic characterisation facility: Microfluidics promises to enable diagnosis of medical diseases using devices which perform laboratory experiments but on a scale which means the entire system can be hand-held. Whilst the fabrication of miniaturised fluidic channels is well established, the challenge is to bring additional functions onto the chip reducing the reliance on external pumps and electronics. This facility will allow the characterisation of technologies which address on-chip sample preparation using pulsed ultrasonic waves, filtration and pumping using nanofluidic structures, and detection using on-chip circuitry. As such the facility will have the capability to directly address the challenges which must be met to allow diagnosis in rural underprivileged areas. Read moreRead less
Development of novel passive sampling devices for ammonia monitoring. This project will develop novel inexpensive passive samplers for ammonia which is an indicator for faecal contamination in stormwater. These devices will increase dramatically the efficiency in isolating intermittent faecal contamination sources in drainage networks by eliminating the need for extensive manual sampling and inspection operations.
Smart passive sampling of heavy metals in aquatic systems. Smart passive sampling of heavy metals in aquatic systems. This project aims to construct smart devices with extracting polymeric membranes for advanced passive sampling of heavy metal ions. These devices should improve the passive sampling of pollutants such as heavy metals by overcoming the effect of the variability of water temperature, composition and velocity during sampling, which substantially reduces the reliability of analytical ....Smart passive sampling of heavy metals in aquatic systems. Smart passive sampling of heavy metals in aquatic systems. This project aims to construct smart devices with extracting polymeric membranes for advanced passive sampling of heavy metal ions. These devices should improve the passive sampling of pollutants such as heavy metals by overcoming the effect of the variability of water temperature, composition and velocity during sampling, which substantially reduces the reliability of analytical data. These devices are expected to reliably identify sources of heavy metal pollution in urban municipal wastewaters and stormwaters without the need for labour intensive monitoring operations, thus saving considerable time and expense to the Australian water industry.Read moreRead less