Structure of Adsorbed Surfactant Layers at Ionic Liquid-Air Interfaces. The research conducted in the project will greatly enhance our understanding of the physical properties of ionic liquids, an important new class of designer solvents. Australian researchers will receive advanced training and experience using Sum Frequency Spectroscopy in the laboratory of OI Rutland, and in the use of Neutron Reflection. This project is especially timely with the imminent start-up of the new Australian resea ....Structure of Adsorbed Surfactant Layers at Ionic Liquid-Air Interfaces. The research conducted in the project will greatly enhance our understanding of the physical properties of ionic liquids, an important new class of designer solvents. Australian researchers will receive advanced training and experience using Sum Frequency Spectroscopy in the laboratory of OI Rutland, and in the use of Neutron Reflection. This project is especially timely with the imminent start-up of the new Australian research reactor, OPAL, and will help to seed an active program by Australian researchers at this facility.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237888
Funder
Australian Research Council
Funding Amount
$580,000.00
Summary
An advanced facility for materials characterisation. X-ray photoelectron spectroscopy is a powerful technique for determining the chemical makeup of the top few Angstroms of a solid material. It has very wide applicability in materials science research, and industry problem solving. Brisbane Surface Analysis Facility has nearly twenty years experience in the use of XPS in the study of advanced materials, polymers, thin films and metallurgy. While the existing instrument is still functional, i ....An advanced facility for materials characterisation. X-ray photoelectron spectroscopy is a powerful technique for determining the chemical makeup of the top few Angstroms of a solid material. It has very wide applicability in materials science research, and industry problem solving. Brisbane Surface Analysis Facility has nearly twenty years experience in the use of XPS in the study of advanced materials, polymers, thin films and metallurgy. While the existing instrument is still functional, it lacks the resolution and imaging capabilities of modern machines, and this proposal is intended to make state of the art imaging XPS available to Queensland institutions, to support initiatives in materials science.Read moreRead less
Material Properties of Nanocrystals. The mechanical characteristics of nanocrystals determine the viability of many novel applications and devices emerging from the field of nanotechnology. Despite their fundamental importance, the mechanical properties of these nanocrystals is only vaguely understood, because their size has prohibited their measurement. In this project, we shall investigate the mechanical properties of these materials for the first time using a combination of theoretical modell ....Material Properties of Nanocrystals. The mechanical characteristics of nanocrystals determine the viability of many novel applications and devices emerging from the field of nanotechnology. Despite their fundamental importance, the mechanical properties of these nanocrystals is only vaguely understood, because their size has prohibited their measurement. In this project, we shall investigate the mechanical properties of these materials for the first time using a combination of theoretical modelling, atomic force microscopy, and a new form of spectroscopy that allows the actual deformation of nanocrystals to be measured. The fundamental scientific knowledge gained is expected to impact on the development of current and future nanodevices.Read moreRead less
Spectroscopy of Single Quantum Dots. Colloidal semiconductor quantum dots are materials with promising applications in flat panel displays, biosensors, quantum dot lasers, and optical communication elements. Many of the applications are novel and require firm understanding of the physical and chemical properties of quantum dots to optimise reliability and performance. To fulfil the technological promise of fluorescent quantum dots, problems relating to quantum yield and photostability urgently n ....Spectroscopy of Single Quantum Dots. Colloidal semiconductor quantum dots are materials with promising applications in flat panel displays, biosensors, quantum dot lasers, and optical communication elements. Many of the applications are novel and require firm understanding of the physical and chemical properties of quantum dots to optimise reliability and performance. To fulfil the technological promise of fluorescent quantum dots, problems relating to quantum yield and photostability urgently need to be resolved. These issues will be addressed through spectroscopic studies of single quantum dots both in vacuum and in condensed phases. Ultimately, the findings will guide rational design of nanoscale devices based on quantum dot luminescence.Read moreRead less