Synthesis of Unique Mesoporous Graphitic Carbons and their Application to Fundamental Problems in Adsorption Science. The development of synthesis techniques to create porous graphitic carbons with highly ordered pore structures, easily accessible pore volume and good electrical conductivity can underpin technological advancements in many industrial applications such as energy storage, removal of pollutants from exhaust streams, direct-methanol fuel cells and lithium ion batteries. Techniques de ....Synthesis of Unique Mesoporous Graphitic Carbons and their Application to Fundamental Problems in Adsorption Science. The development of synthesis techniques to create porous graphitic carbons with highly ordered pore structures, easily accessible pore volume and good electrical conductivity can underpin technological advancements in many industrial applications such as energy storage, removal of pollutants from exhaust streams, direct-methanol fuel cells and lithium ion batteries. Techniques developed in this project are also applicable to creating other materials important to advanced sensors and optoelectronics. The fundamental study of water adsorption and hysteresis using these carbons will help us create better models for adsorption. This will underpin theoretical studies, characterisation and optimisation of carbon materials into the future. 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
Development of Effective Bentonite Adsorbents for Colour Removal from Wastewater and Process Streams. This project aims to develop cost-effective adsorbents from natural bentonite clay for the removal of colour organics in water and other process streams. A new method for modifying the clays will be developed and investigated systematically. Adsorption of various dyes onto clay-based adsorbents will be examined to obtain a better understanding of the adsorption equilibrium and kinetics. The proj ....Development of Effective Bentonite Adsorbents for Colour Removal from Wastewater and Process Streams. This project aims to develop cost-effective adsorbents from natural bentonite clay for the removal of colour organics in water and other process streams. A new method for modifying the clays will be developed and investigated systematically. Adsorption of various dyes onto clay-based adsorbents will be examined to obtain a better understanding of the adsorption equilibrium and kinetics. The project will study the effects of various parameters to optimise the processing conditions for maximum removal efficiency. The project contributes to the mineral industry in value-adding and will also lead to cost-effective processes for water pollution control.Read moreRead less
A new nano-sensor technology for the detection and identification of residual vapours of explosives, drugs and chemicals in the air. Fighting terrorism and crime is one of the most important and difficult tasks that requires substantial human and technological resources. This project will help to address this enormous problem by developing a new optical sensor technology for the detection and identification of traces of chemicals, explosives, drugs and biological agents. It will develop a labora ....A new nano-sensor technology for the detection and identification of residual vapours of explosives, drugs and chemicals in the air. Fighting terrorism and crime is one of the most important and difficult tasks that requires substantial human and technological resources. This project will help to address this enormous problem by developing a new optical sensor technology for the detection and identification of traces of chemicals, explosives, drugs and biological agents. It will develop a laboratory prototype of this sensor that is expected to have superior sensitivity and operational capabilities. Thus it will noticeably contribute to practical law enforcement, air quality and environmental monitoring, counter-terrorism, air safety, border security and customs service. It will also lead to further development of nano-optics and nanotechnology in Australia. Read moreRead less
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882224
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Vector Magnetic Field Facility for Nanoscale Spintronic Materials and Device Research. Electronic devices underpin a trillion dollar industry worldwide and are an essential part of modern life. Spintronics (spin-electronics) is an emergent technology that combines the electrical and magnetic properties of electrons to represent and process information. Spintronic chips are expected to be fast, versatile, capable of simultaneous data storage and processing, while at the same time consuming less ....Vector Magnetic Field Facility for Nanoscale Spintronic Materials and Device Research. Electronic devices underpin a trillion dollar industry worldwide and are an essential part of modern life. Spintronics (spin-electronics) is an emergent technology that combines the electrical and magnetic properties of electrons to represent and process information. Spintronic chips are expected to be fast, versatile, capable of simultaneous data storage and processing, while at the same time consuming less energy. Industry analysts suggest the spintronic market will exceed $10 billion. This facility will provide the critical infrastructure needed to study the electronic and magnetic properties of nanostructured materials, providing the underpinning knowledge to develop the next generation of spintronic devices.Read moreRead less
Synthesis, Biological Interactions and Toxicity Studies of Precisely Engineered Nanoparticles. The proposed benefits of nanotechnology for industries from material sciences, to bioengineering, energy and the environment are currently driving unprecedented growth in this technology world-wide. Some of these benefits are borne out of the unique properties that different nanoparticles exhibit. However, if nanomaterials pose a threat to the health and well-being of the community, then their risks ....Synthesis, Biological Interactions and Toxicity Studies of Precisely Engineered Nanoparticles. The proposed benefits of nanotechnology for industries from material sciences, to bioengineering, energy and the environment are currently driving unprecedented growth in this technology world-wide. Some of these benefits are borne out of the unique properties that different nanoparticles exhibit. However, if nanomaterials pose a threat to the health and well-being of the community, then their risks may outweigh their benefits. This project will identify those characteristics of nanoparticles that can lead to adverse effects and therefore pose a danger to the general community. By defining these characteristics, appropriate changes in nanomaterial production can be considered by industry to minimise these dangers.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.
Methane hydrate in carbon nanopores as a potential means for energy storage. This project deals with the innovative means to store methane (natural gas) in the form of methane hydrate in the nanospace of carbon pores. The significance of this project lies in the enhanced storage of methane at a moderate pressure, compared to the compressed natural gas technology. Expected outcome is the better and efficient utilization of natural gas in transportation industries, and the better understanding o ....Methane hydrate in carbon nanopores as a potential means for energy storage. This project deals with the innovative means to store methane (natural gas) in the form of methane hydrate in the nanospace of carbon pores. The significance of this project lies in the enhanced storage of methane at a moderate pressure, compared to the compressed natural gas technology. Expected outcome is the better and efficient utilization of natural gas in transportation industries, and the better understanding of the formation of methane hydrate in carbon nanopores.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100033
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
In situ Environmental Electron Microscope Facility. This project aims to establish an In situ Environmental Electron Microscope Facility to characterise real-time and dynamic changes in nanomaterials at the atomic scale. We will combine a cutting-edge 'in situ' gas/heating/electrical bias holder with new camera and analysis technology on a transmission electron microscope. This facility will be a sophisticated suite of equipment that will innovate and transform microscopy in Australia to image s ....In situ Environmental Electron Microscope Facility. This project aims to establish an In situ Environmental Electron Microscope Facility to characterise real-time and dynamic changes in nanomaterials at the atomic scale. We will combine a cutting-edge 'in situ' gas/heating/electrical bias holder with new camera and analysis technology on a transmission electron microscope. This facility will be a sophisticated suite of equipment that will innovate and transform microscopy in Australia to image structural and compositional changes of materials under stimuli at a speed and resolution previously unachievable. This project will drive pioneering research in the fields of Materials Science, Chemistry and Catalysis to solve problems in advanced manufacturing, energy, technology and the environment.Read moreRead less