Portable biosensor for rapid detection of viral contamination in food . The objective of this project is to create a miniaturised and cost-effective electrochemical biosensor device that can detect multiple pathogens, simultaneously, even at very low level of concentrations. This device will be crucial for rapidly detect pathogen contamination in food and water to monitor their safety and quality, particularly beneficial in an outbreak or natural disaster for testing these resources. In additio ....Portable biosensor for rapid detection of viral contamination in food . The objective of this project is to create a miniaturised and cost-effective electrochemical biosensor device that can detect multiple pathogens, simultaneously, even at very low level of concentrations. This device will be crucial for rapidly detect pathogen contamination in food and water to monitor their safety and quality, particularly beneficial in an outbreak or natural disaster for testing these resources. In addition to food and water, the successful development of this versatile cost-effective sensor will benefit a wide range of companies such as pharmaceuticals, medical device manufacturing and farms for controlling product quality where detection of life threatening pathogens is pivotal to prevent risk for consumers.Read moreRead less
Nanobionic sensors for Real-Time Plant Health Monitoring. This project aims to develop nanosensors to detect and monitor plant health in real-time by measuring stress molecules. The project will create new knowledge on functional materials with unique optical, electronic and thermal properties as well as their bio-nano interactions with plants. The expected outcomes of the project will provide insight into 1) how localised nanosensors target organelles in living plants to 2) generate signals tha ....Nanobionic sensors for Real-Time Plant Health Monitoring. This project aims to develop nanosensors to detect and monitor plant health in real-time by measuring stress molecules. The project will create new knowledge on functional materials with unique optical, electronic and thermal properties as well as their bio-nano interactions with plants. The expected outcomes of the project will provide insight into 1) how localised nanosensors target organelles in living plants to 2) generate signals that can be picked up by portable devices to 3) report on plant health. Functional nanosensors will enable smart farming, precision agriculture and contribute to future agronomic research, further strengthening Australia’s position as an international leader in nanobiotechnology.Read moreRead less