Advanced microelectronic transistor structures for novel biosensor technology. This international, interdisciplinary team aims to develop an electronic biosensor technology that will significantly advance biomedical research to combat human disease. This is likely to have a major social impact on the community, improve health outcomes and generate substantial economic potential for the pharmaceutical industry. The principal benefit of this research will be the fabrication of electronic devices b ....Advanced microelectronic transistor structures for novel biosensor technology. This international, interdisciplinary team aims to develop an electronic biosensor technology that will significantly advance biomedical research to combat human disease. This is likely to have a major social impact on the community, improve health outcomes and generate substantial economic potential for the pharmaceutical industry. The principal benefit of this research will be the fabrication of electronic devices based on advanced materials, significantly reducing the time, the biological material used and the complexity of assessing human cell function. In addition to improving health through novel biosensor techniques, this technology is expected to lead to the creation of commercially important intellectual property.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668435
Funder
Australian Research Council
Funding Amount
$1,300,000.00
Summary
Biomedical Engineering Sensing and Imaging Facility. The sensing and imaging facility will be the only national facility for leading engineering and medical researchers to undertake multidiscipline research into live and model biological systems. The facility will capture and combine existing strengths in these fields in Melbourne. This will provide new insights into the physiology of human, animal and plant systems and the development of preventive and curative strategies for disease.
Biomimetic Ultra-Thin Compound-Eye Vision Sensor. With the recent advances in microelectronic fabrication technology, it becomes possible today to fabricate paper-thin imaging systems. The proposed research will target the development of such systems to enable the concept of 'stick-on cameras'. Examples of potential applications for this new imaging technology include head-mounted camera patches for rescue workers, smart credit card capable of identifying its user by fingerprint technology, disc ....Biomimetic Ultra-Thin Compound-Eye Vision Sensor. With the recent advances in microelectronic fabrication technology, it becomes possible today to fabricate paper-thin imaging systems. The proposed research will target the development of such systems to enable the concept of 'stick-on cameras'. Examples of potential applications for this new imaging technology include head-mounted camera patches for rescue workers, smart credit card capable of identifying its user by fingerprint technology, discrete monitoring of venues, preventing driver's drowsiness inside a car but also assisting in medical diagnosis and minimally invasive surgery. This leading edge research will enhance the reputation of Australia as a leader in frontier technologies.Read moreRead less