Subsurface Atomic Force Microscopy using Dual Probes. The proposal aims to develop a new microscopy method for imaging nano-scale structures buried below the surface of a sample; for example, metal conductors in a computer processor chip. The expected outcome is a new method for creating subsurface images with an application focus on semiconductor device inspection and quality control. The proposed microscope is expected to create new economic opportunities including new commercial products, int ....Subsurface Atomic Force Microscopy using Dual Probes. The proposal aims to develop a new microscopy method for imaging nano-scale structures buried below the surface of a sample; for example, metal conductors in a computer processor chip. The expected outcome is a new method for creating subsurface images with an application focus on semiconductor device inspection and quality control. The proposed microscope is expected to create new economic opportunities including new commercial products, intellectual property, and the potential for a start-up venture. The benefits to Australia should include the creation of new job opportunities and the development of local expertise in a high-value market sector.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100184
Funder
Australian Research Council
Funding Amount
$183,437.00
Summary
Femtoliter Liquid Deposition Facility. This project aims to create a research capacity for direct printing of femtolitre volumes of functional liquids onto devices and surfaces. This project expects to enable the development of new sensing and electronic devices that require a novel fabrication step with delicate materials that cannot be deposited using existing processes. Expected outcomes include new chemical and biological sensors created through collaborative research between the partner in ....Femtoliter Liquid Deposition Facility. This project aims to create a research capacity for direct printing of femtolitre volumes of functional liquids onto devices and surfaces. This project expects to enable the development of new sensing and electronic devices that require a novel fabrication step with delicate materials that cannot be deposited using existing processes. Expected outcomes include new chemical and biological sensors created through collaborative research between the partner institutions and researchers. The benefits of this project should include the creation of a new rapid prototyping facility for Australian researchers, and the application of these capabilities for the development of new low-cost sensors for environmental gas sensing and glucose monitoring.Read moreRead less
Optimisation of Mass Flow Bin Design Using 3D Parametric Modelling. The storage, feeding and transfer of bulk solids are of vital importance to the resource and process industries. The current techniques used for the design of storage vessels are reliable but time consuming and limit the degree of optimisation that can be achieved. This project will develop a design methodology for bulk solids storage vessels such that it can be integrated with the parametric design system developed by Gulf Con ....Optimisation of Mass Flow Bin Design Using 3D Parametric Modelling. The storage, feeding and transfer of bulk solids are of vital importance to the resource and process industries. The current techniques used for the design of storage vessels are reliable but time consuming and limit the degree of optimisation that can be achieved. This project will develop a design methodology for bulk solids storage vessels such that it can be integrated with the parametric design system developed by Gulf Conveyor Holdings to provide a reliable, accelerated design process that provides a high degree of optimisation. This will lead to greater use of the technique in industry and a consequent increase in reliability and cost effectiveness.Read moreRead less
Design of Quantized Feedback for Robust Control Systems. Most modern machineries and industrial processes are manipulated using advanced control technologies. With the recent advances in information technology, more and more control systems operate over communications networks. However, the technologies used in these control systems are seriously lagging behind because they make little assumptions about problems in digital communications. These problems include sampling errors, quantization erro ....Design of Quantized Feedback for Robust Control Systems. Most modern machineries and industrial processes are manipulated using advanced control technologies. With the recent advances in information technology, more and more control systems operate over communications networks. However, the technologies used in these control systems are seriously lagging behind because they make little assumptions about problems in digital communications. These problems include sampling errors, quantization errors, transmission errors and transmission delays. The proposed research will develop a new control theory to address this issue. Our work will help Australia maintain a leading role in the area of control and give the Australian industry advantages in applying modern technologies in control and automation.Read moreRead less
ARC Centre for Complex Dynamic Systems & Control. Complex dynamic systems are an inescapable feature of the world we live in. Modelling, analysing and optimizing complex behaviour is crucial for environment, process industry, biomedical, energy distribution, transportation and other applications. The Centre for Complex Dynamic Systems and Control will become an international authority in the analysis, design and optimization of complex dynamic systems, pursuing both outstanding fundamental and c ....ARC Centre for Complex Dynamic Systems & Control. Complex dynamic systems are an inescapable feature of the world we live in. Modelling, analysing and optimizing complex behaviour is crucial for environment, process industry, biomedical, energy distribution, transportation and other applications. The Centre for Complex Dynamic Systems and Control will become an international authority in the analysis, design and optimization of complex dynamic systems, pursuing both outstanding fundamental and cutting edge applied research outcomes. These outcomes will be of specific benefit to partner organizations including minerals, process, metal forming, and automotive industries.Read moreRead less
Development of a fuel control system for small two-stroke engines. The two-stroke engine is well known not only for its mechanical simplicity and power-to-weight advantages, but also for its high hydrocarbon emission caused by fuel short-circuiting. Driven by new regulations, developing new technologies for small two-stroke engines to meet pollutant emission standards has become urgent. This project aims to develop a fuel control system for reducing hydrocarbon and other emissions of a two-strok ....Development of a fuel control system for small two-stroke engines. The two-stroke engine is well known not only for its mechanical simplicity and power-to-weight advantages, but also for its high hydrocarbon emission caused by fuel short-circuiting. Driven by new regulations, developing new technologies for small two-stroke engines to meet pollutant emission standards has become urgent. This project aims to develop a fuel control system for reducing hydrocarbon and other emissions of a two-stroke engine designed and produced by Australia's leading lawnmower manufacturer. The knowledge and technology developed will be broadly applicable. By reducing engine pollutant emissions and improving fuel energy efficiency, this research addresses environmental and energy efficiency imperatives.Read moreRead less
Magnetofluidic sample handling for enhanced point-of-care diagnosis. This project aims to decipher the mechanism behind recent discovery on the enhancement of mixing and separation with magnetism and to apply it to the rapid and early detection of malaria and cancer. This mechanism provides novel and unique fluid handling capabilities, which allow the development of revolutionary point-of-care diagnostic approaches that integrate magnetic mixing, separation and detection on a single device. The ....Magnetofluidic sample handling for enhanced point-of-care diagnosis. This project aims to decipher the mechanism behind recent discovery on the enhancement of mixing and separation with magnetism and to apply it to the rapid and early detection of malaria and cancer. This mechanism provides novel and unique fluid handling capabilities, which allow the development of revolutionary point-of-care diagnostic approaches that integrate magnetic mixing, separation and detection on a single device. The outcomes of this project are instrumental for the reduction of healthcare cost, promoting good health for Australian and potentially creating new jobs in the niche biomedical industry.Read moreRead less
Developing a new technology: advanced surface hardening and grinding in a single operation. Our advances will give Australian manufacturing industry first access to a significant technological advance in precision grinding, a critical machining process. This will improve our international competitiveness, through major cost reductions by simplifying the manufacturing procedure and by eliminating the use of toxic coolants. The technology will provide significant opportunities for further Australi ....Developing a new technology: advanced surface hardening and grinding in a single operation. Our advances will give Australian manufacturing industry first access to a significant technological advance in precision grinding, a critical machining process. This will improve our international competitiveness, through major cost reductions by simplifying the manufacturing procedure and by eliminating the use of toxic coolants. The technology will provide significant opportunities for further Australian research in precision machining by creating a foundation for extending the technology to more complex manufacturing processes.Read moreRead less
Optimal transitional surface for a new continuous press forming process. This project addresses the National Research Priority - Frontier Technologies for Building and Transforming Australian Industries through smart information use. This project aims to gain fundamental scientific understanding of a manufacturing process with the aim of developing a tool that will enhance existing manufacturing processes and controls from an 'art of expertise' to a scientific understanding and improvement. Th ....Optimal transitional surface for a new continuous press forming process. This project addresses the National Research Priority - Frontier Technologies for Building and Transforming Australian Industries through smart information use. This project aims to gain fundamental scientific understanding of a manufacturing process with the aim of developing a tool that will enhance existing manufacturing processes and controls from an 'art of expertise' to a scientific understanding and improvement. This manufacturing area represents a niche market for Australian manufacturing and the development of a product that enhances productivity and reduces costs has the potential to elevate Australian manufacturers in the export market and create economic benefit for Australia.Read moreRead less