Switchable and stereocontrolled photoredox catalysis. This project aims to develop new catalytic synthetic reactions for the rapid and more direct functionalisation of organic compounds under mild conditions with the use of visible light. An integrated experimental and computational approach will be used to design potent visible-light photocatalysts that retain the advantages of standard photoredox catalysis but with the added ability to intercept and, thus control, reactive intermediates in sit ....Switchable and stereocontrolled photoredox catalysis. This project aims to develop new catalytic synthetic reactions for the rapid and more direct functionalisation of organic compounds under mild conditions with the use of visible light. An integrated experimental and computational approach will be used to design potent visible-light photocatalysts that retain the advantages of standard photoredox catalysis but with the added ability to intercept and, thus control, reactive intermediates in situ. This will enable the control of stereochemistry in photoredox reactions – not possible with standard catalysts - and establish other useful synthetic transformations. These strategies will make it easier to prepare valuable classes of organic molecules – efficiently, safely, and cost-effectively.
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Hierarchically porous polymer monoliths for separation science. Understanding the molecular composition of biomarkers involved in cell-cell communication and the fate of nanoparticles in the environment is critical to improve our understanding of diseases and environmental processes. This project will develop a new approach for the design of separation media that will greatly improve the efficiency of techniques used to analyse these complex samples. The separation media will consist of a polyme ....Hierarchically porous polymer monoliths for separation science. Understanding the molecular composition of biomarkers involved in cell-cell communication and the fate of nanoparticles in the environment is critical to improve our understanding of diseases and environmental processes. This project will develop a new approach for the design of separation media that will greatly improve the efficiency of techniques used to analyse these complex samples. The separation media will consist of a polymer containing large flow-through pores as well as well-defined mesopores. This dual porous skeleton will allow for the size-based separation of biomarkers and nanoparticles. The new separation media will enable the development of new technologies with applications in areas such medicine and environmental science.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC210100040
Funder
Australian Research Council
Funding Amount
$4,997,903.00
Summary
ARC Training Centre for Facilitated Advancement of Australia's Bioactives (FAAB). The Centre for Facilitated Advancement of Australia's Bioactives (FAAB) will transform the rapidly growing bioactive ingredients sector. It will apply advanced analytical methods to molecular characterisation of bioactive products derived from foods, food-waste, and cell-based biotechnologies. FAAB will determine modes of action for bioactives with potential lifestyle and nutritional benefits allowing for evidence- ....ARC Training Centre for Facilitated Advancement of Australia's Bioactives (FAAB). The Centre for Facilitated Advancement of Australia's Bioactives (FAAB) will transform the rapidly growing bioactive ingredients sector. It will apply advanced analytical methods to molecular characterisation of bioactive products derived from foods, food-waste, and cell-based biotechnologies. FAAB will determine modes of action for bioactives with potential lifestyle and nutritional benefits allowing for evidence-informed decision-making, and regulatory framework development. FAAB graduates will lead and deliver future national self-reliance to the Australian bioactives sector, increasing diversification and international competitiveness and development of regulation in a growing market. Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH170100020
Funder
Australian Research Council
Funding Amount
$2,641,142.00
Summary
ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced mate ....ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced materials that can be used in the industries of the future. Research aims to identify new applications and products. They will be derived from lignocellulose through the advent of new smart paper packaging, green chemical and materials with unique properties. Benefits will flow to the pharmaceutical, chemicals, plastics and food packaging industries.Read moreRead less