Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100081
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The pr ....Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The proposed facility will provide significant benefits to Australian researchers in drug design and delivery, nano-material design and characterisation at nano scale for advanced materials, and promotion of renewable energy. This represents a great opportunity to make discoveries and breakthroughs in frontier science and technology in Australia.Read moreRead less
Imaging defects at atomic resolution via state-of-the-art atomic force microscopy and petascale simulations. Atomic force microscopy (AFM) promises to deliver resolution of individual atoms on surfaces and therefore, in principle, is capable of observing surface defects. However, the image obtained is a convolution of many complex interactions. Thus the key questions are what is being actually observed when we see something with “atomic resolution” in AFM and can point defects be really detected ....Imaging defects at atomic resolution via state-of-the-art atomic force microscopy and petascale simulations. Atomic force microscopy (AFM) promises to deliver resolution of individual atoms on surfaces and therefore, in principle, is capable of observing surface defects. However, the image obtained is a convolution of many complex interactions. Thus the key questions are what is being actually observed when we see something with “atomic resolution” in AFM and can point defects be really detected? The aim of this proposal is to combine state-of-the-art experimental AFM techniques with computer simulations that are capable of generating AFM images to answer these questions. Our ability to harness the potential of AFM for many applications in areas such as nanoscience and crystal engineering hinges on being able to correctly interpret AFM images.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100158
Funder
Australian Research Council
Funding Amount
$470,000.00
Summary
Small angle X-ray scattering facility for Queensland. This project aims to provide an advanced small angle X-ray scattering facility for the examination of versatile porous and nano-size sample types. Understanding the structure-function relationship is crucial for developing high-performance nanostructured materials in bio-applications, renewable energy, energy storage, and water treatment. The proposed facility will support the development of new functional materials for industry reform, mappi ....Small angle X-ray scattering facility for Queensland. This project aims to provide an advanced small angle X-ray scattering facility for the examination of versatile porous and nano-size sample types. Understanding the structure-function relationship is crucial for developing high-performance nanostructured materials in bio-applications, renewable energy, energy storage, and water treatment. The proposed facility will support the development of new functional materials for industry reform, mapping oil and gas reserves, developing innovative technologies for new energy resources, and gas deliverability. The project is strongly aligned with the Advanced Manufacturing Science and Research Priority by providing high-performance materials, and generating new technologies to support major industries in Queensland and Australia.Read moreRead less
Exploiting shear to form new structures of carbon. This project aims to create new, technologically-interesting, materials by combining shear (sliding forces) with high pressure. The work will use both modelling and experiments to understand the pathways to form new materials such as a different form of diamond that is predicted to be harder than regular diamond. Such a material could be used in coatings for cutting tools or ultra-low-scratch surfaces. Expected outcomes include both an understan ....Exploiting shear to form new structures of carbon. This project aims to create new, technologically-interesting, materials by combining shear (sliding forces) with high pressure. The work will use both modelling and experiments to understand the pathways to form new materials such as a different form of diamond that is predicted to be harder than regular diamond. Such a material could be used in coatings for cutting tools or ultra-low-scratch surfaces. Expected outcomes include both an understanding of the importance of shear in the study of high-pressure science, and as a tool to manufacture new functional materials.Read moreRead less
Transforming carbon onions into nanodiamond: technological and astrophysical implications. This project will develop a novel approach for converting carbon into nanometre-sized diamond. Control of the process will lead to a new technology for making diamond coatings and insight into how nanodiamonds form in space.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100033
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Equipment for Advanced Surface Analysis. Equipment for advanced surface analysis:
This project aims to establish equipment for advanced surface analysis to provide Australian researchers with cutting-edge capabilities in surface science. Vital chemical and physical reactions often occur at surfaces. Understanding these reactions requires analysis of the composition and electronic structure of the surface and near-surface regions. Neutral impact collision ion scattering spectroscopy and inverse ....Equipment for Advanced Surface Analysis. Equipment for advanced surface analysis:
This project aims to establish equipment for advanced surface analysis to provide Australian researchers with cutting-edge capabilities in surface science. Vital chemical and physical reactions often occur at surfaces. Understanding these reactions requires analysis of the composition and electronic structure of the surface and near-surface regions. Neutral impact collision ion scattering spectroscopy and inverse photoemission spectroscopy measure concentration depth profiles and electronic structure. The depth resolution of the profiles is in the order of the distance between two neighbouring atoms in a solid or liquid and is the best currently achievable. The equipment providing these capabilities is expected to support research with applications in photovoltaics, catalysis, colloid surfaces and interfaces, coatings and nanocomposites.Read moreRead less