Fighting slime with free radicals - new surface coatings for biofilm remediation. Bacterial biofilms are a major problem in a number of environmental, industrial and medical applications. They cause significant risks to human health and present an enormous economic burden to society. This project aims to develop smart polymeric coatings that will discourage bacterial attachment and ensure greater long term control over biofilm growth. These coatings represent a breakthrough in the field and will ....Fighting slime with free radicals - new surface coatings for biofilm remediation. Bacterial biofilms are a major problem in a number of environmental, industrial and medical applications. They cause significant risks to human health and present an enormous economic burden to society. This project aims to develop smart polymeric coatings that will discourage bacterial attachment and ensure greater long term control over biofilm growth. These coatings represent a breakthrough in the field and will have a profound impact in many areas, including reducing infections related to medical implants and improving the efficiency of marine engineering systems.Read moreRead less
Generation of peptidomimetic surfaces for biomaterials applications. Biomedical implants are increasingly being used for the treatment of a variety of ailments. This project will significantly contribute to the development of these bioengineered constructs, by introducing an innovative method for tailoring the nature of the surface of these materials with structures that mimic the response of biological surfaces. This technology has the potential to promote favourable interactions of cells with ....Generation of peptidomimetic surfaces for biomaterials applications. Biomedical implants are increasingly being used for the treatment of a variety of ailments. This project will significantly contribute to the development of these bioengineered constructs, by introducing an innovative method for tailoring the nature of the surface of these materials with structures that mimic the response of biological surfaces. This technology has the potential to promote favourable interactions of cells with biomedical implants, and an initial targeted application will be to use these bioengineered constructs in the treatment of preventable blindness and severe visual impairment, afflictions which affect over 180 million individuals worldwide.Read moreRead less
Environmentally sustainable asymmetric synthesis: design and development of chiral hydrogen bonding organocatalysts. There is a pressing need for more environmentally sustainable and economically viable methods for asymmetric synthesis. This project aims to design, synthesise and evaluate new organocatalysts based on the principle of hydrogen bonding activation, a common feature of Nature's catalysts, enzymes. These inexpensive, non-toxic, air- and moisture-stable catalysts may prove to be more ....Environmentally sustainable asymmetric synthesis: design and development of chiral hydrogen bonding organocatalysts. There is a pressing need for more environmentally sustainable and economically viable methods for asymmetric synthesis. This project aims to design, synthesise and evaluate new organocatalysts based on the principle of hydrogen bonding activation, a common feature of Nature's catalysts, enzymes. These inexpensive, non-toxic, air- and moisture-stable catalysts may prove to be more efficient, selective and have broader applicability than catalysts based on transition metals. The growing Australian pharmaceutical and biotechnology industries will benefit from the development of these new Advanced Materials and the training provided to young scientists in the sought-after fields of asymmetric synthesis and catalysis.Read moreRead less
Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions ....Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions in Australia by bringing together people with the requisite expertise in materials preparation, characterisation, modelling, photophysics, and device physics and engineering. Read moreRead less
Solution Processable, High Dimensional Dendrimers for Plastic Electronics. Microelectronics are present in our everyday life, from numerous chips in our vehicles to our mobile telephones; and the list is almost infinite. The electronics used today are limited to rigid surfaces, and are incompatible for the next generation of technology such as rollable displays and radio frequency identification cards. This proposal describes the development of a new class of high performance flexible electronic ....Solution Processable, High Dimensional Dendrimers for Plastic Electronics. Microelectronics are present in our everyday life, from numerous chips in our vehicles to our mobile telephones; and the list is almost infinite. The electronics used today are limited to rigid surfaces, and are incompatible for the next generation of technology such as rollable displays and radio frequency identification cards. This proposal describes the development of a new class of high performance flexible electronic inks that could be used in the next generation of microelectronics. There is a huge commercial interest in these electronic ink materials and this market is projected to be $7.7 billion by 2012. The proposed electronic inks address issues with current materials such as processability, performance and reproducibility.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0233459
Funder
Australian Research Council
Funding Amount
$136,000.00
Summary
High Pressure Chemistry Facility. High pressure is a mild, clean and high yielding method of promoting a variety of important chemical reactions. This proposal seeks equipment to conduct such reactions on a pilot and large scale or in large numbers (high-pressure combinatorial chemistry). This equipment would be unique in the Southern Hemsiphere and, together with existing infrastructure, creates an Australian centre in high pressure, liquid - phase chemistry. It would support research programm ....High Pressure Chemistry Facility. High pressure is a mild, clean and high yielding method of promoting a variety of important chemical reactions. This proposal seeks equipment to conduct such reactions on a pilot and large scale or in large numbers (high-pressure combinatorial chemistry). This equipment would be unique in the Southern Hemsiphere and, together with existing infrastructure, creates an Australian centre in high pressure, liquid - phase chemistry. It would support research programmes aimed at developing new materials for microelectronic components and new compounds for high through-put drug discovery and insecticide discovery programmes.Read moreRead less
Nitroxide-containing scaffolds for controlling biofilm-related infections. Bacterial biofilms are a major problem in healthcare systems around the world as they cause persistent and chronic infections, including those associated with medical implants and cystic fibrosis. This project aims to develop new chemical approaches to deliver nitroxides at surface interfaces and in microparticles to facilitate long term control over biofilm growth. It is expected that these functionalised scaffolds will ....Nitroxide-containing scaffolds for controlling biofilm-related infections. Bacterial biofilms are a major problem in healthcare systems around the world as they cause persistent and chronic infections, including those associated with medical implants and cystic fibrosis. This project aims to develop new chemical approaches to deliver nitroxides at surface interfaces and in microparticles to facilitate long term control over biofilm growth. It is expected that these functionalised scaffolds will represent a breakthrough in the field and will have a profound impact by reducing infection rates associated with medical devices and improving airway clearance in cystic fibrosis patients.Read moreRead less
Linking chemical synthesis with protein discovery to reveal key biological pathways. The project aims to pioneer a chemical biology technology to deliver a much better understanding of key molecules that regulate diseases such as cancer. For decades phorbol esters have been prominent molecules for controlling cell switches in complex diseases but our knowledge is incomplete because of the limited natural abundance of these molecules.
Neurotrophic Active Natural Products: Total Synthesis and Biological Evaluation of Neovibsanins A and B, and Analogues. New chemical entities (drug candidates) that promote neurite outgrowth have significant ramifications to mankind as they have real potential to repair damaged, or grow replacement, nerve cells affected by neuro and central nervous system (CNS) degenerative disease (e.g. Alzhiemer's, Parkinson's, Huntington's etc). This scientific endeavour will reveal new drug like molecules fo ....Neurotrophic Active Natural Products: Total Synthesis and Biological Evaluation of Neovibsanins A and B, and Analogues. New chemical entities (drug candidates) that promote neurite outgrowth have significant ramifications to mankind as they have real potential to repair damaged, or grow replacement, nerve cells affected by neuro and central nervous system (CNS) degenerative disease (e.g. Alzhiemer's, Parkinson's, Huntington's etc). This scientific endeavour will reveal new drug like molecules for potential biological and clinical application, thereby assisting a substantial proportion of Australians suffering from these debilitating diseases. Read moreRead less
Molecular probes for pancreatic cancer. Cancer has overtaken heart disease as the main cause of premature death in Australia. Currently one in two men and one in three women are diagnosed with cancer during their lifetime. Pancreatic cancer is the fourth leading cause of cancer death in Australia, and the current lack of effective therapies results in a 1 year survival of just over 10%, and a 5 year survival of less than 5%. This project aims to identify and produce new compounds with novel mech ....Molecular probes for pancreatic cancer. Cancer has overtaken heart disease as the main cause of premature death in Australia. Currently one in two men and one in three women are diagnosed with cancer during their lifetime. Pancreatic cancer is the fourth leading cause of cancer death in Australia, and the current lack of effective therapies results in a 1 year survival of just over 10%, and a 5 year survival of less than 5%. This project aims to identify and produce new compounds with novel mechanisms of action that will facilitate our understanding of pancreatic carcinogenesis and provide the basis for the development of new therapeutic strategies. Australians diagnosed with pancreatic cancer in the future may directly benefit from the results of this work.Read moreRead less