Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will ....Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will generate entirely new device structures relevant to the frontier technologies of photonics and quantum information processing. The project will provide high level training for post-graduate and honours students in nanoscale characterisation and synchrotron science.Read moreRead less
Engineering the kinetic stability of alloys for advanced stainless material development. A framework for understanding and designing metals and alloys with kinetic stability in mind will allow for discovery and breakthrough science to underpin technological innovation. This work has potential benefits for multiple industry sectors, with the ultimate intent of developing advanced materials for use in transport, construction, energy generation and medicine; all sectors of which can improve our qua ....Engineering the kinetic stability of alloys for advanced stainless material development. A framework for understanding and designing metals and alloys with kinetic stability in mind will allow for discovery and breakthrough science to underpin technological innovation. This work has potential benefits for multiple industry sectors, with the ultimate intent of developing advanced materials for use in transport, construction, energy generation and medicine; all sectors of which can improve our quality of life, whilst also addressing the multi-billion dollars of loss attributed to metallic corrosion each year. Such work will also benefit Australia through the development of a strategic international capability in a highly interdisciplinary field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239650
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Advanced instrumentation for nano-scale imaging and analysis. It is widely accepted that the emerging fields of Nanotechnology and Nanoengineering will dominate research activity in a wide range of disciplines over the next decade. Progress in nanoscience and technology requires parallel development in nanocharacterisation and nanofabrication techniques. This proposal seeks to enhance the level of research infrastructure support for nano-scale microscopy and microanalysis at UTS and the Univer ....Advanced instrumentation for nano-scale imaging and analysis. It is widely accepted that the emerging fields of Nanotechnology and Nanoengineering will dominate research activity in a wide range of disciplines over the next decade. Progress in nanoscience and technology requires parallel development in nanocharacterisation and nanofabrication techniques. This proposal seeks to enhance the level of research infrastructure support for nano-scale microscopy and microanalysis at UTS and the University of Sydney by providing the following advanced instrumentation for nano-scale imaging, analysis and manipulation of materials:
- A Schottky field emission gun environmental scanning electron microscope
- Equipment kit for the rapid preparation of high quality transmission electron microscope specimens.Read moreRead less
Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. ....Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. This project addresses these issues using model materials in thin-film and bulk-crystal forms. Capacitance dilatometry, optical, electron and scanning-probe microscopies, and x-ray techniques, will unlock an understanding of the physical and metallurgical conditions controlling these transformations.Read moreRead less
Origin of ferromagnetism in zinc-oxide semiconductors: A vital element to spintronics. Zinc-oxide is a semiconductor which could potentially be applied for a new concept known as spintronics - a hybrid technology of electronics and magnetics. The advantages of spintronic devices would be nonvolatility, increased data processing speed, decreased electric power consumption and increased integration densities compared with conventional semiconductor devices. A vital element to realizing this concep ....Origin of ferromagnetism in zinc-oxide semiconductors: A vital element to spintronics. Zinc-oxide is a semiconductor which could potentially be applied for a new concept known as spintronics - a hybrid technology of electronics and magnetics. The advantages of spintronic devices would be nonvolatility, increased data processing speed, decreased electric power consumption and increased integration densities compared with conventional semiconductor devices. A vital element to realizing this concept is a new class of semiconductor which exhibits magnetism. It has been reported that zinc-oxide doped with transition metal shows magnetization, however, its authenticity remains controversial. We will try resolving this problem by developing a fundamental understanding of the origin of ferromagnetism in zinc-oxide semiconductor.Read moreRead less
Functionalisation of boron nitride nanotubes: preparation, underlying mechanism and potential sensor applications. Building on Australian expertise in synthesis and characterisations of nanomaterials, this project will carry out comprehensive and systematic research in functionalisation of boron nitride nanotubes and explore their potential applications. The success of this project will enhance Australian international reputation in nanotechnology development and ensure our leading position in t ....Functionalisation of boron nitride nanotubes: preparation, underlying mechanism and potential sensor applications. Building on Australian expertise in synthesis and characterisations of nanomaterials, this project will carry out comprehensive and systematic research in functionalisation of boron nitride nanotubes and explore their potential applications. The success of this project will enhance Australian international reputation in nanotechnology development and ensure our leading position in this highly competitive area. The outcome of this project will promote the potentially functional applications of boron nitride nanotubes in various nanodevices and nanosensors. It will also offer trainings for Australia's future scientists and will further strengthen international scientific collaboration in these fields.Read moreRead less
Synthesis of novel microporous metallosilicate adsorbents. Nano-engineered materials will play an enormous role in the 21st century. As our understanding of the molecular structure of materials improves and our manipulation techniques develop, it will become possible to create materials that direct desirable reactions and separations with unprecedented yields and specificity. The proposed work aims to develop novel synthetic microporous metallosilicates using a variety of experimental approach ....Synthesis of novel microporous metallosilicate adsorbents. Nano-engineered materials will play an enormous role in the 21st century. As our understanding of the molecular structure of materials improves and our manipulation techniques develop, it will become possible to create materials that direct desirable reactions and separations with unprecedented yields and specificity. The proposed work aims to develop novel synthetic microporous metallosilicates using a variety of experimental approaches to nano-engineer superior adsorbents for gas separations. We expect the project to contribute to fundamental knowledge of creating tailor-made microporous adsorbents and lead to important fundamental and applied intellectual property for Australian industry.Read moreRead less
Tailoring the optical properties of matter with Sol-Gel: innovative optical materials for 3D photonic crystals with complete photonic band-gap. The success of this project will allow for improvement of existing technologies in diverse fields, from optics to green energy production. Realization of 3D complete Photonic Band-Gap (PBG) structures is the first step toward full optic-based data processing systems, which will be one of the most revolutionary achievements in technology after introductio ....Tailoring the optical properties of matter with Sol-Gel: innovative optical materials for 3D photonic crystals with complete photonic band-gap. The success of this project will allow for improvement of existing technologies in diverse fields, from optics to green energy production. Realization of 3D complete Photonic Band-Gap (PBG) structures is the first step toward full optic-based data processing systems, which will be one of the most revolutionary achievements in technology after introduction of electronic-based processors. Improvement of energy conversion efficiency of existing solar cells and polymer-based solar cells will be achievable thanks to implementation of PhCs as high-reflective layers. The establishment of scaleable protocols for production of high quality materials for photonics will put Australia among the leading countries in the future photonic-devices market.Read moreRead less
Development of SmCo-based High Temperature Permanent Magnets: Microstructure and Coercivity Mechanism. This project is to develop high performance permanent magnets for elevated temperature applications. Microstructure and magnetic properties will be examined using atom probe, TEM, XRD and magnetometry. The specific atom probe is the state-of-the-art technique for the characterization of nanostructure and falls in the designated National Research Priority 3, PG2 Frontier Technologies (nanotechno ....Development of SmCo-based High Temperature Permanent Magnets: Microstructure and Coercivity Mechanism. This project is to develop high performance permanent magnets for elevated temperature applications. Microstructure and magnetic properties will be examined using atom probe, TEM, XRD and magnetometry. The specific atom probe is the state-of-the-art technique for the characterization of nanostructure and falls in the designated National Research Priority 3, PG2 Frontier Technologies (nanotechnology). The magnet alloys concerned are an example of Advanced Materials (NRP3, PG3), possessing the best performance amongst such functional materials. The expertise gained in the use of the atom probe technique in this project will have broader applications in the study of nanostructured materials and other metal alloy problems within Australia.Read moreRead less
Boron nitride nanotubes for tunable conductivity. The proposed research in nanotubes falls into the national research priority areas of advanced materials and breakthrough science. This ANU research group has a leading role in Boron Nitride (BN) nanotube research internationally. The proposed collaborative research will enhance this position and further improve the nation's research profile in nanotechnology. New intellectual properties will be generated if the project is successful, which wi ....Boron nitride nanotubes for tunable conductivity. The proposed research in nanotubes falls into the national research priority areas of advanced materials and breakthrough science. This ANU research group has a leading role in Boron Nitride (BN) nanotube research internationally. The proposed collaborative research will enhance this position and further improve the nation's research profile in nanotechnology. New intellectual properties will be generated if the project is successful, which will benefit the commercialization activity of BN nanotubes at ANU. New PhD and undergraduate students will be trained by the proposed cutting edge research project.Read moreRead less