Discovery Early Career Researcher Award - Grant ID: DE210101137
Funder
Australian Research Council
Funding Amount
$458,665.00
Summary
Exploiting biological noise for next generation electrochemical biosensors. This project aims to harness the intrinsic noise in a biological system to develop a new platform for biosensors. This will lead to advancement of a new versatile electrochemical platform for real-time screening with vast applications that span from sensing at sub-cellular level to point-of-care and implantable biosensors. The new sensory technique will improve the specificity, sensitivity and resolution in biosensors an ....Exploiting biological noise for next generation electrochemical biosensors. This project aims to harness the intrinsic noise in a biological system to develop a new platform for biosensors. This will lead to advancement of a new versatile electrochemical platform for real-time screening with vast applications that span from sensing at sub-cellular level to point-of-care and implantable biosensors. The new sensory technique will improve the specificity, sensitivity and resolution in biosensors and enables measurement of multiple biomarkers simultaneously in real-time. The outcomes will contribute to a better understanding of fundamental physiological processes and chemical interactions at subcellular level which will inform future advancements in biomedical engineering.
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Discovery Early Career Researcher Award - Grant ID: DE240100321
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Optical Metasurface for Single Small Extracellular Vesicle Analysis. This project aims to develop an innovative nanobiotechnology to study small extracellular vesicles (sEVs) – small biological particles that are important in intercellular communication. The technology will enable unprecedented depth of analysis and single particle resolution. It will generate new knowledge in both engineering and biological sciences by improving sEV image resolution and collecting information regarding the dist ....Optical Metasurface for Single Small Extracellular Vesicle Analysis. This project aims to develop an innovative nanobiotechnology to study small extracellular vesicles (sEVs) – small biological particles that are important in intercellular communication. The technology will enable unprecedented depth of analysis and single particle resolution. It will generate new knowledge in both engineering and biological sciences by improving sEV image resolution and collecting information regarding the distribution of different sEV subpopulations based on their protein phenotypes. Expected outcomes include a universal and ultrasensitive platform with many applications in analytical biochemistry such as disease diagnostics, environmental sciences, food safety and agriculture.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101471
Funder
Australian Research Council
Funding Amount
$441,100.00
Summary
Controlling uranium species to its long-term stability in bioremediation. This project aims to reveal the mechanisms of uranium transformation and immobilisation in both aerobic and anaerobic conditions of bioremediation with the emphasis on elucidating stable uranium immobilised under different pathways and conditions. This project expects to generate new knowledge regarding the relationship between uranium speciation and stability with the matrix mineral, microbiota, and environmental conditio ....Controlling uranium species to its long-term stability in bioremediation. This project aims to reveal the mechanisms of uranium transformation and immobilisation in both aerobic and anaerobic conditions of bioremediation with the emphasis on elucidating stable uranium immobilised under different pathways and conditions. This project expects to generate new knowledge regarding the relationship between uranium speciation and stability with the matrix mineral, microbiota, and environmental conditions. Expected outcomes from this project include new strategies for preferential immobilisation of uranium to stable species that are resistant to air and acid. The anticipated benefits of this project include mitigating uranium contamination and promoting the sustainable development of the uranium industry in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100755
Funder
Australian Research Council
Funding Amount
$462,948.00
Summary
Developing phytosystems for the biofiltration of air pollutants . This project aims to develop, evaluate and apply a range of biotechnology driven solutions for the use of phytosystem biofilters designed for air purification. The findings of the project will demonstrate the fundamental mechanisms behind botanical air pollutant biofiltration, apply systematic technological development against a range of air pollutants, and provide strategies to deploy the technology. With a transdisciplinary appr ....Developing phytosystems for the biofiltration of air pollutants . This project aims to develop, evaluate and apply a range of biotechnology driven solutions for the use of phytosystem biofilters designed for air purification. The findings of the project will demonstrate the fundamental mechanisms behind botanical air pollutant biofiltration, apply systematic technological development against a range of air pollutants, and provide strategies to deploy the technology. With a transdisciplinary approach utilising techniques new to this discipline, the project will substantially advance the fundamental science underlying this novel and highly valuable area of air-bioremediation technology, and will create a much stronger economic driver for this Australia-led innovation.Read moreRead less