Crystal engineering of membranes for chiral separation . This project addresses the urgent challenge of chiral separation in the manufacturing of pharmaceuticals and agrochemicals by creating a new class of membranes produced by engineering functionalised porous framework crystals. This project expects to generate new knowledge regarding how membrane chemistry and architecture can be used to achieve highly selective, fast chiral molecule transport. The expected outcomes of the project include ne ....Crystal engineering of membranes for chiral separation . This project addresses the urgent challenge of chiral separation in the manufacturing of pharmaceuticals and agrochemicals by creating a new class of membranes produced by engineering functionalised porous framework crystals. This project expects to generate new knowledge regarding how membrane chemistry and architecture can be used to achieve highly selective, fast chiral molecule transport. The expected outcomes of the project include new membrane compositions, design principles, fabrication techniques, and proof-of-concept production of scalable, high-performance composite membranes. This project should produce significant economic and environmental benefits in the development of advanced membranes, pharmaceuticals, and agrochemicals.Read moreRead less
Highly Efficient Nanomotors for Autonomous Cell Recognition and Isolation. This project aims to develop next-generation self-driven nanomotors capable of long-range motion with highly controlled directionality for cell recognition, transportation and separation in complex biological environments, to allow autonomous and seamless cell sorting with high accuracy. The anticipated goal of this project is to advance the field of nanotechnology and advanced manufacturing with potential to support new ....Highly Efficient Nanomotors for Autonomous Cell Recognition and Isolation. This project aims to develop next-generation self-driven nanomotors capable of long-range motion with highly controlled directionality for cell recognition, transportation and separation in complex biological environments, to allow autonomous and seamless cell sorting with high accuracy. The anticipated goal of this project is to advance the field of nanotechnology and advanced manufacturing with potential to support new applications and to value-add Australia’s advanced manufacturing industry, presenting new opportunities for Australian MedTech industries with innovative, disruptive technologies to address its unique needs and to claim Australia’s position within the competitive global market.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100661
Funder
Australian Research Council
Funding Amount
$426,551.00
Summary
Nanoparticle with Metal Organic Framework for Lithium Recovery from Brine. The project aims to develop technology enabling lithium to be cost-effectively extracted from brine. Today Australia meets the increasing demand for lithium by mining hardrock lithium, an environmentally damaging activity. An alternative is to source lithium from brine produced as industrial wastewater (in desalination or shale gas production). The main challenge that brine presents to selectively extracting lithium is co ....Nanoparticle with Metal Organic Framework for Lithium Recovery from Brine. The project aims to develop technology enabling lithium to be cost-effectively extracted from brine. Today Australia meets the increasing demand for lithium by mining hardrock lithium, an environmentally damaging activity. An alternative is to source lithium from brine produced as industrial wastewater (in desalination or shale gas production). The main challenge that brine presents to selectively extracting lithium is competing ions. By advancing knowledge of nanomaterials and membrane distillation, the project expects to overcome both this technical challenge and other practical challenges. From wastewater, the anticipated system will produce additional clean water and a valuable commodity that can offset the cost of water treatment. Read moreRead less
Advanced separators for lithium-sulphur batteries. This project aims to develop new membranes for use as separators in lithium-sulphur batteries. Currently diffusion of polysulphides within these batteries reduces battery power and lifetime. The new membranes are intended to block polysulphide diffusion over an extended lifetime, while transporting the other ions needed for the battery to function. The project is expected to generate new membrane materials and further knowledge about the design, ....Advanced separators for lithium-sulphur batteries. This project aims to develop new membranes for use as separators in lithium-sulphur batteries. Currently diffusion of polysulphides within these batteries reduces battery power and lifetime. The new membranes are intended to block polysulphide diffusion over an extended lifetime, while transporting the other ions needed for the battery to function. The project is expected to generate new membrane materials and further knowledge about the design, synthesis and larger-scale production of membranes for electrochemical applications. This project will provide significant benefits by producing potentially lighter, longer-lasting and cheaper batteries than existing lithium-ion technologies, with the potential to accelerate the adoption of electric cars.Read moreRead less
Engineering two dimensional polymers for membrane-based chemical separation. This project aims to develop novel two-dimensional polymers with precisely controlled pore-sizes for preparing membrane materials which can efficiently separate these gaseous chemicals at ambient temperatures. Key industrial chemical mixtures with similar size and boiling points are difficult to separate by conventional distillation methods. Currently, purification of olefins alone accounts for 0.3% of global energy use ....Engineering two dimensional polymers for membrane-based chemical separation. This project aims to develop novel two-dimensional polymers with precisely controlled pore-sizes for preparing membrane materials which can efficiently separate these gaseous chemicals at ambient temperatures. Key industrial chemical mixtures with similar size and boiling points are difficult to separate by conventional distillation methods. Currently, purification of olefins alone accounts for 0.3% of global energy use. The expected outcomes of the project will have a huge impact on industrial purification processing by providing a disruptive membrane technology, and will significantly reduce energy consumption and open up new routes for resources.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100029
Funder
Australian Research Council
Funding Amount
$2,545,000.00
Summary
Nanoionics: Engineering ion transport with two-dimensional materials. This project aims to use graphene and other emerging two-dimensional materials to investigate and manipulate ion transport in nanoscale channels. Nanoionics focuses on understanding ions for transport and storage in nanoscale systems, central to numerous technologies related to water, energy and biomedicine. The project will provide sophisticated methods for revolutionary technological innovations to solve problems in several ....Nanoionics: Engineering ion transport with two-dimensional materials. This project aims to use graphene and other emerging two-dimensional materials to investigate and manipulate ion transport in nanoscale channels. Nanoionics focuses on understanding ions for transport and storage in nanoscale systems, central to numerous technologies related to water, energy and biomedicine. The project will provide sophisticated methods for revolutionary technological innovations to solve problems in several industries including manufacturing, mining, water management and bioengineering. Providing access to previously unavailable structures and materials, the project will support Australia’s manufacturing sector by transforming established industries with next generation technologies. The project will also build capacity of nanoionics engineers and provide intellectual property for commercialised products.Read moreRead less