Plasma touches life: advancing plasma technologies for the life sciences. The aim of this project is to develop a mechanistic understanding of how electrically excited gas (plasma) jets deliver reactive oxygen and nitrogen species into tissue, ensuring safety and precision in their use to combat disease. Overcoming barriers in delivery is intended to help realise the full potential of plasma in the life sciences. The project is expected to generate new knowledge across physics, chemistry and bio ....Plasma touches life: advancing plasma technologies for the life sciences. The aim of this project is to develop a mechanistic understanding of how electrically excited gas (plasma) jets deliver reactive oxygen and nitrogen species into tissue, ensuring safety and precision in their use to combat disease. Overcoming barriers in delivery is intended to help realise the full potential of plasma in the life sciences. The project is expected to generate new knowledge across physics, chemistry and biology, leading to new approaches for the future development of plasma technologies. This should provide significant benefits by expanding the human capacity of research in plasma, and in growing the advanced manufacturing of plasma devices for future applications in engineering, biology and health.Read moreRead less
Predicting concentration-gradient-driven liquid transport in 2D membranes. This project aims to achieve a predictive understanding of liquid transport through two-dimensional (2D) membranes driven by concentration gradients by using a combination of novel theory and computation. Membranes made from 2D nanomaterials hold great promise for many applications from desalination to power generation to chemical sensing, but the concentration-gradient-driven transport processes that underlie these appli ....Predicting concentration-gradient-driven liquid transport in 2D membranes. This project aims to achieve a predictive understanding of liquid transport through two-dimensional (2D) membranes driven by concentration gradients by using a combination of novel theory and computation. Membranes made from 2D nanomaterials hold great promise for many applications from desalination to power generation to chemical sensing, but the concentration-gradient-driven transport processes that underlie these applications are not well understood. The expected outcome of this project is an unprecedented quantitative understanding of the parameters that control these transport processes. This will enable predictive optimisation of 2D membranes, which will reduce the time and cost of membrane development for diverse applications.
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Commercial scale production of biocrude by hydrothermal liquefaction. The project aims to develop new understanding and tools to support commercial-scale production of biocrude from microalgae or biosolids and enable a breakthrough in cost-effective production of sustainable fuels. A novel hydrothermal liquefaction reactor has been developed that has strong potential to overcome the limitations of Muradel's existing demonstration reactor which, while world-leading, is uneconomical at commercial ....Commercial scale production of biocrude by hydrothermal liquefaction. The project aims to develop new understanding and tools to support commercial-scale production of biocrude from microalgae or biosolids and enable a breakthrough in cost-effective production of sustainable fuels. A novel hydrothermal liquefaction reactor has been developed that has strong potential to overcome the limitations of Muradel's existing demonstration reactor which, while world-leading, is uneconomical at commercial scale. The project aims to develop design tools to optimise the new reactor, comprising a chemical model of the complex, multi-component hydrothermal liquefaction reactions, a computational model of the mixing and heat transfer within it and a network model of the energy and exergy flows.Read moreRead less
Antipodean Geology: A Modern History of Southern Hemisphere Earth. This project aims to produce a modern history of the ancient mega-continent Gondwanaland. An international team intends to reorient the history of geosciences towards the southern hemisphere by investigating geologists working in Australasia, South Asia, South America, Southern Africa and Antarctica since 1788. This includes analysis of how Gondwana fossils came to fuel the industrial age. The team also aims to explain how, why a ....Antipodean Geology: A Modern History of Southern Hemisphere Earth. This project aims to produce a modern history of the ancient mega-continent Gondwanaland. An international team intends to reorient the history of geosciences towards the southern hemisphere by investigating geologists working in Australasia, South Asia, South America, Southern Africa and Antarctica since 1788. This includes analysis of how Gondwana fossils came to fuel the industrial age. The team also aims to explain how, why and with what effect the term 'Gondwana' has retained such strong cultural purchase, well beyond the geological domain. This should productively recast ideas of a global south and improve understanding of what ‘Gondwana’, and deep geological time, mean for societies across the southern hemisphere. Read moreRead less
Organisms and Us: How Living Things Help Us To Understand Our World. How do researchers learn from and 'think with' non-human organisms? This project seeks to develop a comprehensive historical and philosophical exploration of the changing roles and understandings of research with organisms in 20th and early 21st century science. Advances in the content and technologies of the biological and biomedical sciences have resulted in new understandings of what we can know and learn from organisms, par ....Organisms and Us: How Living Things Help Us To Understand Our World. How do researchers learn from and 'think with' non-human organisms? This project seeks to develop a comprehensive historical and philosophical exploration of the changing roles and understandings of research with organisms in 20th and early 21st century science. Advances in the content and technologies of the biological and biomedical sciences have resulted in new understandings of what we can know and learn from organisms, particularly with regard to human functioning, health, and well-being, yet we have no integrated scholarship examining these developments across a range of fields. This project seeks to produce useful scholarship relevant for humanities scholars, scientists, clinicians and policy-makers.Read moreRead less