Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882787
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research i ....An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research in diverse research fields developing new advanced nanomaterials and bio-nanomaterials with significant impact on many industries with great economical and environmental benefits. Read moreRead less
Nanostructures of Titanium Dioxide and Titanates by Wet-chemistry. One-dimensional (1D) nanoparticulates of titanium dioxide (TiO2) and titanate synthesized by wet-chemistry approaches are new advanced materials of unusual properties. This project will investigate the formation and phase transition mechanism of these 1D particulates by various techniques. With such knowledge, we can effectively control the morphology on a scale of nanometers, and tailor the energy gap of these materials. This wi ....Nanostructures of Titanium Dioxide and Titanates by Wet-chemistry. One-dimensional (1D) nanoparticulates of titanium dioxide (TiO2) and titanate synthesized by wet-chemistry approaches are new advanced materials of unusual properties. This project will investigate the formation and phase transition mechanism of these 1D particulates by various techniques. With such knowledge, we can effectively control the morphology on a scale of nanometers, and tailor the energy gap of these materials. This will significantly influence the photosemiconductive photocatalytic and lithium ions insertion behaviours of the particles so that advanced materials for solar energy conversion, photocatalysts for decomposing organic pollutants in environment, eletrode materials of lithium batteries can be developed.Read moreRead less
Efficient One-Dimensional Photocatalysts from Titanate Nanofibres and Nanotubes. This project will deliver important fundamental knowledge for the development of high-value products of titania, and thus will contribute directly to the priority goal of transforming the existing titania industry through value adding and export on the international market. This research will lead to new industries and will create employment opportunities for Australians. It will also serve to train young scientists ....Efficient One-Dimensional Photocatalysts from Titanate Nanofibres and Nanotubes. This project will deliver important fundamental knowledge for the development of high-value products of titania, and thus will contribute directly to the priority goal of transforming the existing titania industry through value adding and export on the international market. This research will lead to new industries and will create employment opportunities for Australians. It will also serve to train young scientists with a real appreciation of materials research and engineering, contributing to the overall competitiveness and productivity of Australian R&D. This project would lead to advances in important fields of clean energy, environment remediation and advanced materials processing in Australia.Read moreRead less
Reactions of Nanoparticles of Metal Oxides and Hydrous Oxides and their Applications in Photocatalysts and Electrode Materials. Australia is a world-leading producer of raw materials of many metallic elements, most of which are exported at low-values. This project will yield important knowledge in new synthetic techniques for making nanostructures of metal oxides. These tiny particles already have a large worldwide market, but the discovery of particles with superior properties or new applicatio ....Reactions of Nanoparticles of Metal Oxides and Hydrous Oxides and their Applications in Photocatalysts and Electrode Materials. Australia is a world-leading producer of raw materials of many metallic elements, most of which are exported at low-values. This project will yield important knowledge in new synthetic techniques for making nanostructures of metal oxides. These tiny particles already have a large worldwide market, but the discovery of particles with superior properties or new applications could lead to new industries and high-value exports. This project aims to devise novel photocatalysts for solar energy conversion and environmental protection, and electrode materials for lithium batteries. It will contribute to the overall competitiveness and productivity of Australian R&D by advancing scientific knowledge and training young researchers.Read moreRead less
Developing high-flux ceramic membranes via in situ synthesis of metal oxide nanofibres for separations of biological substances. This project can deliver advanced technology for fabricating ceramic membranes and biological separation, which has considerable commercial prospects in the chemical, pharmaceutical, dairy, food and water industries. The new ceramic membrane and nanofibres are highly-valued end products of metal oxides, which are manufactured commercially on large scale in Australia. T ....Developing high-flux ceramic membranes via in situ synthesis of metal oxide nanofibres for separations of biological substances. This project can deliver advanced technology for fabricating ceramic membranes and biological separation, which has considerable commercial prospects in the chemical, pharmaceutical, dairy, food and water industries. The new ceramic membrane and nanofibres are highly-valued end products of metal oxides, which are manufactured commercially on large scale in Australia. The project could bring direct benefits to the existing industries, by fostering their growth into more value-added processes, and exporting highly-valued products abroad. Additionally, efficient ceramic membranes could offer solutions to the large-scale purification of biological substances and to the problems for providing clean drinking water.Read moreRead less