Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their ....Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their collective behaviour. The project will investigate in detail the geometry, topology, materials science and statistical physics of networks, leading to design and characterization of robust self-assembled materials and complex systems.Read moreRead less
Manipulation of Nano-Scale Assembly, Structure and Interaction: New Drug Delivery Vehicles and Energy Storage Devices for Miniaturised Portable Electronic Products. Nano-scale molecular and surface interactions will be manipulated to develop new nano-structured products. There will be two themes of research activity. In the first theme, newly discovered ionic liquids will be employed to better elucidate the role of hydrophobic interaction in molecular assembly processes. These findings wil ....Manipulation of Nano-Scale Assembly, Structure and Interaction: New Drug Delivery Vehicles and Energy Storage Devices for Miniaturised Portable Electronic Products. Nano-scale molecular and surface interactions will be manipulated to develop new nano-structured products. There will be two themes of research activity. In the first theme, newly discovered ionic liquids will be employed to better elucidate the role of hydrophobic interaction in molecular assembly processes. These findings will assist in the development of surfactant-drug conjugates that can self-assemble and can converge therapeutic, drug delivery and controlled release functions; allowing drugs to be administered in the therapeutic concentration range for prolonged periods of time with reduced side-effects. In the second theme, nano-materials will be used to converge capacitor and battery technologies to provide a dramatic performance boost to miniaturised portable electronic devices.Read moreRead less
Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these ....Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these materials will be studied. The project therefore falls into two priority areas: photon science and nanotechnology. Outcomes in addition to new knowledge will include materials and processes with commercial potential.Read moreRead less
How organisms coordinate energy supply and demand. The metabolic stress sensing protein kinase called the AMP activated protein kinase controls metabolism of all eukaryotes to meet the needs of energy demand and nutrient supply. It is responsible for accelerating metabolism (glucose transport, glycolysis and fatty acid oxidation) in response to energy demand and with caloric restriction it regulates gene transcription to adapt to energy supply. This project is to provide a comprehensive unders ....How organisms coordinate energy supply and demand. The metabolic stress sensing protein kinase called the AMP activated protein kinase controls metabolism of all eukaryotes to meet the needs of energy demand and nutrient supply. It is responsible for accelerating metabolism (glucose transport, glycolysis and fatty acid oxidation) in response to energy demand and with caloric restriction it regulates gene transcription to adapt to energy supply. This project is to provide a comprehensive understanding of the AMP activated protein kinase (enzyme isoforms, genes, physiological roles and regulation). This knowledge will have major benefits in biopharmaceutical development, the livestock, plant and sport/racing industries.Read moreRead less