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Processing Pearl Nacre for Bio-Nanotechnology. Nanotechnology has exciting potential to solve major health challenges of the 21st century. The proposed research focuses on developing health care products, derived from a renewable waste stream resource from the pearling industry, en route to establishing products to benefit the rural community, and beyond. The processed pearl nacre provides the possibility of alleviating problems associated with neurotrauma following injury, and for skin regenera ....Processing Pearl Nacre for Bio-Nanotechnology. Nanotechnology has exciting potential to solve major health challenges of the 21st century. The proposed research focuses on developing health care products, derived from a renewable waste stream resource from the pearling industry, en route to establishing products to benefit the rural community, and beyond. The processed pearl nacre provides the possibility of alleviating problems associated with neurotrauma following injury, and for skin regeneration following burns. The recently established powerful multidisciplinary research team in partnership with Pearl Technology combines expertise in chemical processing, nanotechnology, biochemistry, neuroscience and tissue engineering, also providing a basis for quality research training.Read moreRead less
A nanoengineered solution to drug delivery in bone. This project presents an exciting new approach of applying nanotechnology to bone research. By combining our expertise in nanoengineering of new materials, mathematical modelling and bone biology, this project will result in a well-characterised model for drug delivery into bone and lead to a new therapeutic approach for treating bone diseases.
Special Research Initiatives - Grant ID: SR0354588
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Integrated Nanoscale Biosystems Network (INBN). The INBN will integrate high-priority research, already identified by the ARC, in materials nanoscience and engineering with nanoscale biology. The INBN will provide the means to consolidate world-class multidisciplinary Australian research groups in existing Centres of Excellence, including several Federation Fellows, into a nanobiotechnology focus. The significant outcomes of INBN are the critical mass of outstanding researchers in the nanobiosci ....Integrated Nanoscale Biosystems Network (INBN). The INBN will integrate high-priority research, already identified by the ARC, in materials nanoscience and engineering with nanoscale biology. The INBN will provide the means to consolidate world-class multidisciplinary Australian research groups in existing Centres of Excellence, including several Federation Fellows, into a nanobiotechnology focus. The significant outcomes of INBN are the critical mass of outstanding researchers in the nanobiosciences, facilitation of innovative research to produce novel intellectual property and provision of pathways into collaborative research with international scientists and industry, and the training and development of the next generation scientists for this emerging discipline.
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Rotational Degrees Of Freedom In Modelling Of Materials With Intrinsic Length Scale. In many applications, from nanotechnology to construction and mining, the modelled objects are not large enough as compared to the material constituents for classical continuum modelling to be adequate, but yet encompass too many elements for comfortable particle-type computer simulation. Generalised continua would offer a viable option if a rational method of their construction for each intrinsic material struc ....Rotational Degrees Of Freedom In Modelling Of Materials With Intrinsic Length Scale. In many applications, from nanotechnology to construction and mining, the modelled objects are not large enough as compared to the material constituents for classical continuum modelling to be adequate, but yet encompass too many elements for comfortable particle-type computer simulation. Generalised continua would offer a viable option if a rational method of their construction for each intrinsic material structure were at hand. The project aims at developing the necessary homogenisation procedure and constructing generalised (Cosserat) continuum models of deformation, wave propagation and impact fracture in particulate and layered materials such as multi-wall nanotubes, fullerenes, particulate composites and layered rock masses.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100011
Funder
Australian Research Council
Funding Amount
$470,000.00
Summary
A world class, high-resolution scanning electron microscopy facility for West Australian researchers. More than 100 West Australian researchers from a broad range of disciplines will benefit from new scanning electron microscopy facilities used to characterise surfaces of materials down to the nanoscale. This new microscope will continue the production of high-impact science outcomes that underpin Australia’s economic and social well being.
Understanding graphitization: developing a model for activated carbons. For over 60 years it has remained a puzzle why some carbons graphitise under heating while others do not. The question is of practical importance as oxidation of non-graphitising carbons produces activated carbon, a product of high value with industrial, medical and environmental applications. Using computational and experimental techniques the project will study the graphitisation process and pinpoint the structural element ....Understanding graphitization: developing a model for activated carbons. For over 60 years it has remained a puzzle why some carbons graphitise under heating while others do not. The question is of practical importance as oxidation of non-graphitising carbons produces activated carbon, a product of high value with industrial, medical and environmental applications. Using computational and experimental techniques the project will study the graphitisation process and pinpoint the structural elements which inhibit it. Based on these findings the project aims to develop a nanoscale atomistic model for activated carbons. This is expected to be an important contribution to the field of chemical engineering in which current models of activated carbon neglect either curvature in the network or the presence of oxygen.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775548
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
Advanced characterisation facilities for functional nanostructured materials. A critical factor that enhances frontier research is a set of advanced core research experimental facilities for material characterisation purposes. The proposed equipment aims to: (1) provide research facilities for advanced nanomaterial research; (2) improve national competitiveness and growth in a knowledge-based economy; and (3) foster local talented researchers in order to meet the strategic needs of the nation fo ....Advanced characterisation facilities for functional nanostructured materials. A critical factor that enhances frontier research is a set of advanced core research experimental facilities for material characterisation purposes. The proposed equipment aims to: (1) provide research facilities for advanced nanomaterial research; (2) improve national competitiveness and growth in a knowledge-based economy; and (3) foster local talented researchers in order to meet the strategic needs of the nation for a sustainable environment. These activities will revitalise Australia's leading role in creating new technologies with particular relevance to using advanced nanostructures for the production of clean air and water, and sustainable energy alternatives.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100056
Funder
Australian Research Council
Funding Amount
$621,198.00
Summary
High-frequency ultrasound and photoacoustic imaging for Western Australia. This project aims to obtain a small animal, high-frequency ultrasound and photoacoustic imaging instrument, to be placed in the University of Western Australia's Centre for Microscopy, Characterisation and Analysis. As a node of the National Imaging Facility, this infrastructure will result in enhanced capacity for fundamental, interdisciplinary, biological, and bionanotechnology research in Western Australia, and enable ....High-frequency ultrasound and photoacoustic imaging for Western Australia. This project aims to obtain a small animal, high-frequency ultrasound and photoacoustic imaging instrument, to be placed in the University of Western Australia's Centre for Microscopy, Characterisation and Analysis. As a node of the National Imaging Facility, this infrastructure will result in enhanced capacity for fundamental, interdisciplinary, biological, and bionanotechnology research in Western Australia, and enable pursuit of projects previously only possible either interstate or internationally. New capacity in small animal in-vivo imaging will generate knowledge in biology, feeding into such areas as species conservation and reproductive health, and intellectual property and commercial opportunity in areas such as medical imaging and theranostics.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
Targeted process development for drug delivery. Matrix assisted ball milling and continuous flow process intensification on rotating surfaces in the form of spinning discs and rotating tubes, and combinations of these, allow the fabrication of nanoparticles for the pharmaceutical industry, with the ability to fine tune the properties of the particles to improve their uptake profiles, while minimising side effects. The research will be conducted through the Centre for Strategic Nano-Fabrication w ....Targeted process development for drug delivery. Matrix assisted ball milling and continuous flow process intensification on rotating surfaces in the form of spinning discs and rotating tubes, and combinations of these, allow the fabrication of nanoparticles for the pharmaceutical industry, with the ability to fine tune the properties of the particles to improve their uptake profiles, while minimising side effects. The research will be conducted through the Centre for Strategic Nano-Fabrication with its science based attention to quality by design for product development at the inception of the science. This, coupled with the involvement of iCeutica which has a strong commercially focused R and D profile, provides a more innovative research culture, and excellent research training. Read moreRead less