Chip liquid chromatography-inductively coupled plasma-mass spectrometry: a new hyphenated microfluidic instrument for metallomics. An alliance of two Australian universities and a world-leading scientific instrument company will develop innovative technology that will enable new reliable, sensitive and patient-specific medical tests, as well as being used to probe causes of significant diseases that appear to involve trace levels of metals in the body.
Industrial Transformation Training Centres - Grant ID: IC140100022
Funder
Australian Research Council
Funding Amount
$2,148,935.00
Summary
ARC Training Centre for Portable Analytical Separation Technologies. ARC Training Centre for Portable Analytical Separation Technologies. Portable analytical separation systems will enable point-of sample analysis for complex samples in food, environmental and clinical applications. The Training Centre aims to train the next generation of industry-ready Australian researchers through creating a sustainable research partnership between university-based researchers and Australian industry focused ....ARC Training Centre for Portable Analytical Separation Technologies. ARC Training Centre for Portable Analytical Separation Technologies. Portable analytical separation systems will enable point-of sample analysis for complex samples in food, environmental and clinical applications. The Training Centre aims to train the next generation of industry-ready Australian researchers through creating a sustainable research partnership between university-based researchers and Australian industry focused on developing new capabilities and technologies that have the potential to facilitate, support, or catalyse the progressive deployment of portable separation science technologies into society. This will enable the development of new, portable and affordable analytical separation systems and contribute to creating a sustainable, globally competitive manufacturing industry in Australia.Read moreRead less
Micro-disperse sintered nano-diamonds: a new class of versatile adsorbent for high performance liquid chromatography. Nano-diamond is currently recognised amongst researchers as a highly significant material for the development of new technologies in analytical science, diagnostics and nano-technology. Here, sintered nano-diamond, with its many unique properties, will provide a new generation of stationary phases for use in high performance liquid chromatography.
3D printed microchemical devices and systems. This project aims to address the barriers faced by 3D printing in chemistry. 3D printing can create bespoke 3D structures within a fraction of time and cost compared to traditional fabrication. However, its scope in chemistry has been limited by the poor chemical robustness, biotoxicity and low resolution of the 3D printed components. Hence, this project will develop novel gold coating techniques and explore high-resolution 3D printing to overcome th ....3D printed microchemical devices and systems. This project aims to address the barriers faced by 3D printing in chemistry. 3D printing can create bespoke 3D structures within a fraction of time and cost compared to traditional fabrication. However, its scope in chemistry has been limited by the poor chemical robustness, biotoxicity and low resolution of the 3D printed components. Hence, this project will develop novel gold coating techniques and explore high-resolution 3D printing to overcome these challenges. The project should generate commercially significant products (analytical platforms), technology (gold coating) and patents. The developed systems and technologies will address Australian research challenges in advanced manufacturing and enable on-site environmental monitoring.Read moreRead less
New separation technologies for profiling metabolites in biological samples. Metabolomics is an important new field of science that is contributing to the understanding of life processes at the molecular level. But a widely acknowledged major limitation of current metabolomics technologies is the inability to accurately identify high numbers of detected metabolites in the biological extracts being studied. This project will develop cutting-edge separation science approaches to address this exist ....New separation technologies for profiling metabolites in biological samples. Metabolomics is an important new field of science that is contributing to the understanding of life processes at the molecular level. But a widely acknowledged major limitation of current metabolomics technologies is the inability to accurately identify high numbers of detected metabolites in the biological extracts being studied. This project will develop cutting-edge separation science approaches to address this existing problem in metabolomics analysis. In doing so it will provide enormous benefit to Australian biotechnology and biomedical research and play a major role in transferring capabilities to laboratories and research institutes that are involved in research aimed at elucidating biological pathways and networks.Read moreRead less
Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the productio ....Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the production of safer drugs. The project will expand collaboration between Australia researchers and the world's largest pharmaceutical company. Specialised training will be provided to both postdoctoral and postgraduate researchers, positioning them to make strong contributions to Australia's growing pharmaceutical industry.Read moreRead less
Disposable microdevices for fast ion analysis. The design and fabrication of a microdevice for ion chromatography will introduce Australia to the field of miniaturised total analytical systems (µTAS). The availability of infrastructure, technology and experience in the µTAS area will provide the foundation for specialised commercialisation of sophisticated, chip-based analytical instruments. These instruments have important applications in forensic, clinical and environmental chemistry.
Pre-blast screening of improvised explosive devices - a National counter-terrorism initiative. The proposed research is focused on the specific needs of Australian counter-terrorism interests, including those of border protection, the customs service, transport authorities, forensic laboratories, etc. The support of this proposal will ensure that Australia, and its States and Territories are protected against terrorist threats. The support provided by the collaborating organisations from the var ....Pre-blast screening of improvised explosive devices - a National counter-terrorism initiative. The proposed research is focused on the specific needs of Australian counter-terrorism interests, including those of border protection, the customs service, transport authorities, forensic laboratories, etc. The support of this proposal will ensure that Australia, and its States and Territories are protected against terrorist threats. The support provided by the collaborating organisations from the various Federal and State police and forensic agencies, and the customs service, etc, highlights the importance of this project to the nation. Finally, a PhD student and a research assistant will be involved with the project and will gain specialised skills positioning them to make strong contributions to Australia's counter-terrorism measures.Read moreRead less
Targeting organically-complexed iron species in seawater using selective solid-phase adsorbent resins. Iron limits primary productivity in 40% of the oceans. Its accurate determination is thus critical to understanding the functioning of marine ecosystems and their role in moderating Earth's climate. Recent findings indicate that serious discrepancies exist in iron concentrations obtained using different analytical methods. These discrepancies are believed to be due to the lability of organic ....Targeting organically-complexed iron species in seawater using selective solid-phase adsorbent resins. Iron limits primary productivity in 40% of the oceans. Its accurate determination is thus critical to understanding the functioning of marine ecosystems and their role in moderating Earth's climate. Recent findings indicate that serious discrepancies exist in iron concentrations obtained using different analytical methods. These discrepancies are believed to be due to the lability of organic and colloidal iron species to extraction by adsorbent preconcentration resins. This project will design and synthesise a range of functionalised resins for the selective extraction of iron species from seawater, advancing our knowledge of its bioavailability and leading to the generation of class-specific analytical methodologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237784
Funder
Australian Research Council
Funding Amount
$707,000.00
Summary
Hyphenated Separations/Mass Spectrometry Technology for Protein and Natural Product Characterisation. This proposal consolidates the 3 institutions' collaboration on the ACROSS (Australian Centre for Research on Separation Science) initiative, providing fundamental technology for chemical structural analysis of complex samples involving high resolution protein and natural product characterisation. Requested equipment supports complete characterisation of important novel target molecules. GCxGC-T ....Hyphenated Separations/Mass Spectrometry Technology for Protein and Natural Product Characterisation. This proposal consolidates the 3 institutions' collaboration on the ACROSS (Australian Centre for Research on Separation Science) initiative, providing fundamental technology for chemical structural analysis of complex samples involving high resolution protein and natural product characterisation. Requested equipment supports complete characterisation of important novel target molecules. GCxGC-TOFMS technology will validate our newly patented multidimensional separation techniques. Q-TOF-TOFMS technology, novel patented protein prefractionation approaches, and sample handling with high resolution characterisation / identification of new target proteins allows advanced proteomics developments. Proteomics depends critically upon sophisticated MS techniques. These technologies will: ·enhance the capabilities and expertise in these sciences in the SE Australian area; ·ensure the ACROSS initiative achieves internationally competitive research capabilities; ·provide commercial endpoints in fields associated with analysis of proteins, essential oils and other natural (bio)substances.Read moreRead less