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New Biomimetic Nanostructured Coatings for Hip Implants. Over 30,000 hip implants operations take place in Australia each year, due largely to a significant and growing proportion of the population suffering from conditions such as osteoporosis. The coating on the implants, required to cause good bone ingrowth and adhesion between bone and implant, is far from perfect. We propose to spray coatings which mimic the structure of bone, and thus offer improved mechanical properties such as appropriat ....New Biomimetic Nanostructured Coatings for Hip Implants. Over 30,000 hip implants operations take place in Australia each year, due largely to a significant and growing proportion of the population suffering from conditions such as osteoporosis. The coating on the implants, required to cause good bone ingrowth and adhesion between bone and implant, is far from perfect. We propose to spray coatings which mimic the structure of bone, and thus offer improved mechanical properties such as appropriate rigidity and toughness, and stimulate better bone growth at the interface. In this way the implant should be much longer lasting and the need for undesirable revision surgery reduced. The processing technique proposed could also be a useful platform coating technology in a number of other industries.Read moreRead less
Special Research Initiatives - Grant ID: SR0354821
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Innovative Materials Production, Processing and Analysis Network. Materials science and engineering is decidedly interdisciplinary, covering a diverse spectrum of research from biology to construction, with an equally broad applications span encompassing all manufacturing industry. Australia has distinct strengths in materials but it has been difficult to promote sufficient interaction across discipline boundaries to fully exploit such strengths. The current network focuses on interdisciplinar ....Innovative Materials Production, Processing and Analysis Network. Materials science and engineering is decidedly interdisciplinary, covering a diverse spectrum of research from biology to construction, with an equally broad applications span encompassing all manufacturing industry. Australia has distinct strengths in materials but it has been difficult to promote sufficient interaction across discipline boundaries to fully exploit such strengths. The current network focuses on interdisciplinary materials interactions nationally by: i) bringing the materials community together at an annual workshop, ii) exposing PhD students and young researchers to cross-disciplinary research initiatives and facilities, iii) identifying common infrastructure needs, iv) linking with industry networks, eg AMTN, and to the international community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775715
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. ....Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. It fills a desperate need in a niche area. The research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industries: Advanced Materials.Read moreRead less
Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these ....Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these materials will be studied. The project therefore falls into two priority areas: photon science and nanotechnology. Outcomes in addition to new knowledge will include materials and processes with commercial potential.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100147
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Advanced ultrasonic spray deposition system for large area solar cells fabrication. Low cost, low carbon forms of power generation are required to enable Australia to minimise its greenhouse gas emissions. Traditional solar cells are manufactured using high cost, low volume production methods which will in future be complemented by the introduction of low cost, high volume printed organic solar cells. Spray deposition of active materials will allow the formation of active solar cells on many n ....Advanced ultrasonic spray deposition system for large area solar cells fabrication. Low cost, low carbon forms of power generation are required to enable Australia to minimise its greenhouse gas emissions. Traditional solar cells are manufactured using high cost, low volume production methods which will in future be complemented by the introduction of low cost, high volume printed organic solar cells. Spray deposition of active materials will allow the formation of active solar cells on many new materials, thus opening up new ways of using solar cells and hence new markets or export opportunities. The research is aimed at delivering a local research-driven industry which is export-oriented, thus assisting Australia to reach its carbon reduction targets.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH150100003
Funder
Australian Research Council
Funding Amount
$2,611,346.00
Summary
ARC Research Hub for Graphene Enabled Industry Transformation. ARC Research Hub for Graphene Enabled Industry Transformation. This research hub aims to provide the advanced materials industry with innovative solutions to tackle critical and complex challenges of national significance. The hub intends to leverage substantial existing and new investments to overcome fundamental scientific barriers and develop fit-for-purpose graphene products with and for its partners. Advanced materials, particul ....ARC Research Hub for Graphene Enabled Industry Transformation. ARC Research Hub for Graphene Enabled Industry Transformation. This research hub aims to provide the advanced materials industry with innovative solutions to tackle critical and complex challenges of national significance. The hub intends to leverage substantial existing and new investments to overcome fundamental scientific barriers and develop fit-for-purpose graphene products with and for its partners. Advanced materials, particularly graphene, are now considered promising for maintaining competitive advantages for industrial transformational progress; and advanced industries to drive prosperity where innovation underpins business to thrive globally. The anticipated impacts are long-term economic prosperity and growth.Read moreRead less