Understanding and controlling the construction of molecular electronic and photovoltaic devices using nucleic acids. The efficient generation and use of energy is arguably the most pressing problem the world faces today. This project will enable the construction of molecular electronic and energy generation devices with increased efficiency, and will impact the fields of bio-organic chemistry and material science. Australia will benefit from the cheap and efficient energy produced by these new e ....Understanding and controlling the construction of molecular electronic and photovoltaic devices using nucleic acids. The efficient generation and use of energy is arguably the most pressing problem the world faces today. This project will enable the construction of molecular electronic and energy generation devices with increased efficiency, and will impact the fields of bio-organic chemistry and material science. Australia will benefit from the cheap and efficient energy produced by these new environmentally benign energy generation and transducing devices. A secondary benefit will arise when these devices are applied to medical diagnostics for early detection of diseases. Economic and environmental benefits for the Australian community and Australia's development as a knowledge-based economy will be the result.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
Chemical and morphological engineering of semiconductor electrodes for high efficiency solar cells. The expected outcomes of the project are the preparation and development of sophisticated electrodes for solar cells, the main advantage of which resides in their designed chemical and morphological properties. The resulting electrodes have the potential to improve the efficiency of the solar cells over current industrially used materials. The products and mechanisms developed are envisaged to be ....Chemical and morphological engineering of semiconductor electrodes for high efficiency solar cells. The expected outcomes of the project are the preparation and development of sophisticated electrodes for solar cells, the main advantage of which resides in their designed chemical and morphological properties. The resulting electrodes have the potential to improve the efficiency of the solar cells over current industrially used materials. The products and mechanisms developed are envisaged to be amenable to large scale-up in industry. Hence, at a future date, there is the potential to fabricate the electrodes in Australia and then export the materials or technology internationally. This will benefit the Australian economy through employment of Australians and income generated through exports.Read moreRead less
Greatly improved rectification by molecular diodes. Society has already seen dramatic benefits from microtechnology, which has made possible most of the devices that we take for granted. The limits of miniaturisation using current technology are rapidly being reached, and the next stage is in the realm of nanotechnology. The goal of the field known as molecular electronics is to reach the point where electronic components are composed of single molecules or single molecular layers. In this fi ....Greatly improved rectification by molecular diodes. Society has already seen dramatic benefits from microtechnology, which has made possible most of the devices that we take for granted. The limits of miniaturisation using current technology are rapidly being reached, and the next stage is in the realm of nanotechnology. The goal of the field known as molecular electronics is to reach the point where electronic components are composed of single molecules or single molecular layers. In this field the smallest active component is the molecular diode, and this project is focussed on achieving practical performance from molecular diodes, as a crucial first step in achieving miniaturisation far beyond anything now possible.Read moreRead less
Static and Dynamic Forces in Colloidal and Fluid Systems. Novel research based around the Atomic Force Microscope are pursued to make ultra-sensitive measurement of forces between emulsion droplets and probe the mechanical properties of long molecules such as DNA. These studies generate basic knowledge that provides insight about emulsion stability that are of importance from the food and pharmaceutical industries to manufacturing drilling mud for oil wells. The results also provide qualitativ ....Static and Dynamic Forces in Colloidal and Fluid Systems. Novel research based around the Atomic Force Microscope are pursued to make ultra-sensitive measurement of forces between emulsion droplets and probe the mechanical properties of long molecules such as DNA. These studies generate basic knowledge that provides insight about emulsion stability that are of importance from the food and pharmaceutical industries to manufacturing drilling mud for oil wells. The results also provide qualitative and predictive information about the mechanisms that determine the interaction involving large bio-molecules such as DNA and proteins. The instrumentation created along the way has the potential to be developed into special purpose ultra-sensitive devices and sensors.Read moreRead less
Nanocrystal Electronics: A Sol-Gel Approach. Australia is building capability in printable electronics, which will supersede traditional semiconductor fabrication methods. The main goals are to mass produce key electronic structures such as display devices, solar cells and sensors using cheaper, non-clean room based technologies via ink-jet printing and other high throughput methods. The integration of sol-gel based materials into roll-to-roll manufacturing will advance Australian manufacturing ....Nanocrystal Electronics: A Sol-Gel Approach. Australia is building capability in printable electronics, which will supersede traditional semiconductor fabrication methods. The main goals are to mass produce key electronic structures such as display devices, solar cells and sensors using cheaper, non-clean room based technologies via ink-jet printing and other high throughput methods. The integration of sol-gel based materials into roll-to-roll manufacturing will advance Australian manufacturing capabilities and generate new jobs in the rapidly growing printable electronics field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100067
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
The Vevo 2100 Micro-ultrasound plus LAZR Photoacoustic Imaging Platform . The Vevo 2100 micro-ultrasound plus LAZR photoacoustic imaging platform: The Vevo/LAZR ultrasound/photoacoustic imaging facility will allow researchers to achieve multiple outcomes: to visualise and quantify, non-invasively, tissue and molecular structures; the movement and behaviour of cells; and the delivery patterns of administered imaging dyes and nanoparticles in mouse models and reconstructed tissues. This will enabl ....The Vevo 2100 Micro-ultrasound plus LAZR Photoacoustic Imaging Platform . The Vevo 2100 micro-ultrasound plus LAZR photoacoustic imaging platform: The Vevo/LAZR ultrasound/photoacoustic imaging facility will allow researchers to achieve multiple outcomes: to visualise and quantify, non-invasively, tissue and molecular structures; the movement and behaviour of cells; and the delivery patterns of administered imaging dyes and nanoparticles in mouse models and reconstructed tissues. This will enable researchers to obtain anatomical, functional, physiological and molecular data simultaneously and in real-time, with resolution down to 40 micrometres. This will translate into both user efficiency and laboratory cost effectiveness, but more significantly is expected to result in greater understanding of fundamental mechanisms regulating the body's cell and tissue functions.Read moreRead less
Development of a molecular flash memory for long-term, extremely high-capacity, unpowered data storage. This collaborative project with INTEL will demonstrate an array of Flash-RAM molecular-memory cells capable, at room temperature, of storing a terabit of data on an area of 2 square mm. This data density is more than four orders of magnitude greater than any commercially available technology and unattainable by conventional silicon-based electronics. We will design and optimize the memory cel ....Development of a molecular flash memory for long-term, extremely high-capacity, unpowered data storage. This collaborative project with INTEL will demonstrate an array of Flash-RAM molecular-memory cells capable, at room temperature, of storing a terabit of data on an area of 2 square mm. This data density is more than four orders of magnitude greater than any commercially available technology and unattainable by conventional silicon-based electronics. We will design and optimize the memory cell, develop the synthesis method, synthesize arrays of the memory cells, and develop new molecular addressing technologies.Read moreRead less
Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within ....Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within Australia and therefore lead to employment nationally, and income generated through the export of advanced catalysts, solar cells and sequestration materials.Read moreRead less
Fundamental Characterization of Adsorption of Simple to Complex Fluids on Carbon Black and in Carbon Pores. The outcome of this project will help designing engineers with a molecular simulation model for adsorption of simple to complex fluids commonly used in industries. The success of this project translates to a significant saving because it requires minimum effort in experimentation.