Australian Laureate Fellowships - Grant ID: FL180100161
Funder
Australian Research Council
Funding Amount
$3,279,122.00
Summary
Science and engineering concept formation in homes and playbased settings. This education project aims to research concept formation in infants, toddlers and preschoolers by examining imagination in play-based settings and homes. Quality early childhood experiences can impact positively on life choices and career pathways. The outcomes of this project will provide baseline evidence, build on teachers’ strengths in play-based settings, and test a new early childhood model of teaching science, eng ....Science and engineering concept formation in homes and playbased settings. This education project aims to research concept formation in infants, toddlers and preschoolers by examining imagination in play-based settings and homes. Quality early childhood experiences can impact positively on life choices and career pathways. The outcomes of this project will provide baseline evidence, build on teachers’ strengths in play-based settings, and test a new early childhood model of teaching science, engineering and technologies, while monitoring uptake and adoption to build Australia's early childhood research capacity. It is expected that the results will build capacity in research in early childhood science, engineering and technologies, positioning Australia as a research leader.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100137
Funder
Australian Research Council
Funding Amount
$3,320,000.00
Summary
10,000 Hours: Time in early education and care for better life opportunity. An Australian child spends up to 10,000 hours in early care and education programs prior to school. These hours are a developmental opportunity. Their potential to improve life chances is well documented. Yet many programs do not deliver on this promise. Nearly 1 in 4 Australian children enter school developmentally vulnerable. This study aims to interrogate the meaning of quality in early education and care programs wit ....10,000 Hours: Time in early education and care for better life opportunity. An Australian child spends up to 10,000 hours in early care and education programs prior to school. These hours are a developmental opportunity. Their potential to improve life chances is well documented. Yet many programs do not deliver on this promise. Nearly 1 in 4 Australian children enter school developmentally vulnerable. This study aims to interrogate the meaning of quality in early education and care programs with focus in communities experiencing the greatest challenges. The expected result is understanding of the mechanisms that limit delivery of the highest quality learning opportunities and outcomes for children. The benefit will be for children attending early education and care programs, their families and the nation’s future.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100061
Funder
Australian Research Council
Funding Amount
$3,147,256.00
Summary
Literacy in adolescence: The next major challenge in the science of reading. This project aims to address the pressing problem of why Australian secondary school children have been declining in literacy. To do so is crucial, since adolescence is a period when strong literacy is critical for knowledge acquisition and preparation for adult life. The project will use a range of theoretically-informed methods to scrutinise cognitive processes in adolescent reading, as well as identify interactions b ....Literacy in adolescence: The next major challenge in the science of reading. This project aims to address the pressing problem of why Australian secondary school children have been declining in literacy. To do so is crucial, since adolescence is a period when strong literacy is critical for knowledge acquisition and preparation for adult life. The project will use a range of theoretically-informed methods to scrutinise cognitive processes in adolescent reading, as well as identify interactions between reading progress and socio-emotional functioning and motivation. Expected outcomes will be the first comprehensive account of secondary school reading acquisition and new insights into how to optimise progress. These will inform research, policy, and reading instruction practice, to the benefit of Australia's children.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100033
Funder
Australian Research Council
Funding Amount
$2,917,224.00
Summary
Transformative work design for health, skills and agility. Transformative work design for health, skills and agility. This Fellowship plans to study how transformative work design promotes meaningful, healthy, and productive work. The ‘what, how, where, when, and who’ of work is changing: the digital revolution is reconfiguring work processes more rapidly and on a much larger scale than ever before, and the demography of the workforce is profoundly shifting. Work design is a crucial but neglecte ....Transformative work design for health, skills and agility. Transformative work design for health, skills and agility. This Fellowship plans to study how transformative work design promotes meaningful, healthy, and productive work. The ‘what, how, where, when, and who’ of work is changing: the digital revolution is reconfiguring work processes more rapidly and on a much larger scale than ever before, and the demography of the workforce is profoundly shifting. Work design is a crucial but neglected strategy for optimising health, for unleashing employee talent, and for creating agile and effective organisations. Anticipated outcomes include a new theory on the future of work, a national longitudinal study on how work design fosters critical human development, field interventions, and evidence-based collaboratory activities.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100202
Funder
Australian Research Council
Funding Amount
$3,221,432.00
Summary
“New ways to see” - Reimagining Electron Microscopy . Understanding materials at the level of individual atoms can be critical for understanding their properties. This program aims to develop new ways to measure the structure of matter at the level of atoms by reimagining the fundamental concepts behind an electron microscope. This will enable subtle classes of structures in materials to be seen, that were previously not visible. This new knowledge will provide fundamental insight into the prope ....“New ways to see” - Reimagining Electron Microscopy . Understanding materials at the level of individual atoms can be critical for understanding their properties. This program aims to develop new ways to measure the structure of matter at the level of atoms by reimagining the fundamental concepts behind an electron microscope. This will enable subtle classes of structures in materials to be seen, that were previously not visible. This new knowledge will provide fundamental insight into the properties of materials and how they can be engineered to deliver new functions. Expected outcomes include a microscope with unprecedented sensitivity to atomic scale structures and new understanding of material’s properties. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100089
Funder
Australian Research Council
Funding Amount
$2,600,796.00
Summary
In situ electron microscopy toward new materials and applications. In situ electron microscopy toward new materials and applications. This project aims to develop materials for structural and green energy applications, using spatially-resolved, dynamic in situ transmission electron microscopy to research fundamental mechanical, electrical, thermal, optical, optoelectronic and photovoltaic properties of diverse nanostructures. These techniques measure nanomaterial (one-dimensional nanotubes and n ....In situ electron microscopy toward new materials and applications. In situ electron microscopy toward new materials and applications. This project aims to develop materials for structural and green energy applications, using spatially-resolved, dynamic in situ transmission electron microscopy to research fundamental mechanical, electrical, thermal, optical, optoelectronic and photovoltaic properties of diverse nanostructures. These techniques measure nanomaterial (one-dimensional nanotubes and nanowires and two-dimensional graphene-like nanosheets) response to external stimuli, including mechanical, electrical, optical and thermal stimuli. Anticipated outcomes are new ultralight and superstrong structural composites and ‘green-energy’ nanomaterials, such as solar cells, touch panels, batteries, supercapacitors, field-effect transistors, light sensors and displays.Read moreRead less