Discovery Early Career Researcher Award - Grant ID: DE120100423
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Tissue engineered muscle actuators as evocative cultural objects and vehicles for discourses about material agency and living machines. This interdisciplinary project will be examining shifting perceptions of what is living through case study of a vital-machine; tissue engineered muscle actuators in custom made bioreactors. It will further discourses about posthumanist perceptions of movement as an indicator for life with agency; suggesting new knowledge and modes of inquiry of material life.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100066
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Collaborative embodied movement design network. This project aims to create a national collaborative network of arts/technology researchers to study the creative potential of movement-based human computer interaction systems. Movement-based technologies such as augmented and virtual reality, haptic and robotic interfaces form the cutting edge of human computer interaction development. This project will develop new infrastructure to enable researchers to work together to improve these systems fro ....Collaborative embodied movement design network. This project aims to create a national collaborative network of arts/technology researchers to study the creative potential of movement-based human computer interaction systems. Movement-based technologies such as augmented and virtual reality, haptic and robotic interfaces form the cutting edge of human computer interaction development. This project will develop new infrastructure to enable researchers to work together to improve these systems from an embodied perspective. This is expected to benefit industry, commerce, education, health care and the arts.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100486
Funder
Australian Research Council
Funding Amount
$363,182.00
Summary
Drone witnessing: technologies of perception in war and culture. This project aims to investigate how drones and other technologies of perception are changing how we bear witness and determine the meaning, importance and truth of events. The project will generate new knowledge about the impact of drone warfare and drone technologies on forms and processes of witnessing by analysing both primary and creative texts and by conducting field research into new practices of testimony. Anticipated outco ....Drone witnessing: technologies of perception in war and culture. This project aims to investigate how drones and other technologies of perception are changing how we bear witness and determine the meaning, importance and truth of events. The project will generate new knowledge about the impact of drone warfare and drone technologies on forms and processes of witnessing by analysing both primary and creative texts and by conducting field research into new practices of testimony. Anticipated outcomes include a critical and conceptual framework for witnessing, new terms to inform public debates about the cultural impact of increased reliance on drones in war and culture, and new channels for knowledge exchange between drone and autonomous system designers, humanities scholars and creative practitioners.Read moreRead less
Performative Body-Mapping (PBM) method for socialising non-humanlike robots. This project aims to transform techniques of embodiment that are central to human–robot interaction, to improve the social skills and acceptability of future robots. Robots are increasingly becoming part of our lives in the sectors of health, education, commerce and leisure. But robots’ social skills today fall far behind their functional capabilities. Performative body-mapping (PBM) aims to address this problem by inve ....Performative Body-Mapping (PBM) method for socialising non-humanlike robots. This project aims to transform techniques of embodiment that are central to human–robot interaction, to improve the social skills and acceptability of future robots. Robots are increasingly becoming part of our lives in the sectors of health, education, commerce and leisure. But robots’ social skills today fall far behind their functional capabilities. Performative body-mapping (PBM) aims to address this problem by inventing and trialling a transdisciplinary body-mapping method for socialising non-humanlike robots. Significantly, this would allow for social robots to be non-humanoid in appearance but still appealing and readable to humans, and robots to be taught to interact by using human movement expertise in an innovative, effective way.Read moreRead less
Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to a ....Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to address this highly significant problem by developing a novel methodology to manipulate nanoparticles under the influence of an oscillating magnetic field to achieve high transfection efficiencies in a highly relevant model of epigenetic reprogramming.Read moreRead less
Establishing Design Principles Of Polymers For Intracellular Delivery . Engineered polymers have played a central role in the field of bionanotechnology by enabling targeted nanoscale cell interactions. Progress in the field of intracellular delivery is currently affected by a major bottleneck due to the absence of effective polymers that is applicable across the range of bimolecular cargoes. In essence depending on the type of cargo: DNA, RNA or protien, the polymer needs programmability. The l ....Establishing Design Principles Of Polymers For Intracellular Delivery . Engineered polymers have played a central role in the field of bionanotechnology by enabling targeted nanoscale cell interactions. Progress in the field of intracellular delivery is currently affected by a major bottleneck due to the absence of effective polymers that is applicable across the range of bimolecular cargoes. In essence depending on the type of cargo: DNA, RNA or protien, the polymer needs programmability. The limited tunability of traditional polymers agents makes them unsuitable for this particular application. The multidisciplinary project addresses this significant problem by engineering novel sequences of defined polymer based nanoscale agents to achieve efficient delivery in cells.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101569
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
A novel graphene-based optical sensing platform. Graphene has extraordinary electronic and optical properties as well as large specific surface area which afford great potential for sensor applications. This project will develop an innovative sensing platform to bring graphene related materials and devices a step closer to practical applications, particularly in biochemical sensors.
Multifunctional particles for biological applications. This project aims to engineer multifunctional particles, examine their biological interactions and create particles for cell targeting, cell internalisation, subcellular drug release and improved pharmacokinetics. Engineered particles are important for drug delivery in nanomedicine. Although various particle-based delivery systems have been developed, few have been commercialised, largely because of problems challenges associated with biolog ....Multifunctional particles for biological applications. This project aims to engineer multifunctional particles, examine their biological interactions and create particles for cell targeting, cell internalisation, subcellular drug release and improved pharmacokinetics. Engineered particles are important for drug delivery in nanomedicine. Although various particle-based delivery systems have been developed, few have been commercialised, largely because of problems challenges associated with biological barriers. This project will develop a platform for the assemble of particles with tailored properties which are expected to provide insights on particle-biological interactions for particle-based therapeutic delivery.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100121
Funder
Australian Research Council
Funding Amount
$270,000.00
Summary
An integrated system for characterisation of mechanical behaviour of bio- and nanomaterials at micro and nano scales in Queensland. Australia's material sciences will benefit from a new integrated system capable of microforce and nanomechanical testing of biomaterials, polymers and thin films, medical devices and electronics at the micro and nano scales. This facility will support ground-breaking research. It will help promote strategic collaboration and ensure the competitiveness of related and ....An integrated system for characterisation of mechanical behaviour of bio- and nanomaterials at micro and nano scales in Queensland. Australia's material sciences will benefit from a new integrated system capable of microforce and nanomechanical testing of biomaterials, polymers and thin films, medical devices and electronics at the micro and nano scales. This facility will support ground-breaking research. It will help promote strategic collaboration and ensure the competitiveness of related and emerging industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100168
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Facility for Characterisation of BioNanomaterials. Facility for characterisation of bionanomaterials:
The facility for characterisation of bionanomaterials aims to provide researchers with access to an integrated facility for advanced characterisation of nanomaterials from inception to application in biomedicine. Nanotechnology has contributed to significant advances across a range of disciplines and is increasingly used in biomedical applications. The facility aims to allow detailed examinatio ....Facility for Characterisation of BioNanomaterials. Facility for characterisation of bionanomaterials:
The facility for characterisation of bionanomaterials aims to provide researchers with access to an integrated facility for advanced characterisation of nanomaterials from inception to application in biomedicine. Nanotechnology has contributed to significant advances across a range of disciplines and is increasingly used in biomedical applications. The facility aims to allow detailed examination of how nanomaterials interact in biological systems; from individual nanoparticles to whole animals, and through developing this fundamental understanding provide the means to produce new and highly effective nanomaterials for biomedical applications. The facility plans to support programs using nanomaterials for molecular imaging and intelligent drug delivery, while developing greater understanding of how to create more effective nanobiomaterials.Read moreRead less