Understanding career persistence: integrating socio-cognitive and psychological contract perspectives. Falling enrolments, dropouts, and an ageing workforce have contributed to a shortage of science professionals in Australia. This project will integrate socio-cognitive and psychological contract perspectives to identify predictors of career persistence among students and professionals in the field of science.
To step-in or to stand-by: Third party responses to abusive supervision. Abusive supervision is costly in Australian organisations. Little is known about the experiences of third parties who are not direct targets of abuse. Indeed, a large percentage of supervisor abuse that is witnessed goes unreported. Using a multi-method approach, this project develops and tests a model that explains third party responses to supervisor abuse. In addition to advancing theory, an evidence-based intervention (i ....To step-in or to stand-by: Third party responses to abusive supervision. Abusive supervision is costly in Australian organisations. Little is known about the experiences of third parties who are not direct targets of abuse. Indeed, a large percentage of supervisor abuse that is witnessed goes unreported. Using a multi-method approach, this project develops and tests a model that explains third party responses to supervisor abuse. In addition to advancing theory, an evidence-based intervention (including an action tool kit) is developed to empower third parties to combat supervisor abuse by engaging in constructive action. Overall, research outcomes will aim to provide actionable insights into what organisations can do to encourage their employees to take a proactive stance against abusive supervision.Read moreRead less
Strengthening Australia’s science workforce. This project aims to study why science, technology, engineering and math (STEM) employees stay or leave jobs. There is a strong economic imperative to retain STEM employees. The Australian Government invests heavily in building the supply of STEM graduates, but STEM workers often leave STEM occupations. This project will use a job embeddedness perspective to clarify why these employees stay or leave. Expected project outputs include an evidence-based ....Strengthening Australia’s science workforce. This project aims to study why science, technology, engineering and math (STEM) employees stay or leave jobs. There is a strong economic imperative to retain STEM employees. The Australian Government invests heavily in building the supply of STEM graduates, but STEM workers often leave STEM occupations. This project will use a job embeddedness perspective to clarify why these employees stay or leave. Expected project outputs include an evidence-based toolkit, online masterclass and an online community of practice to contribute to strengthening Australia’s science and innovation capacity.Read moreRead less
New Directions in Silicon Solar Cell Technology. The fabrication of pure silicon is energy intensive, but solar cells can return 10 times more energy than is used to fabricate them. By investing in the development of silicon solar cells, Australia will develop a technology capable of encapsulating its vast coal resources within pure silicon. This has the potential to create an export market of clean energy and have an explosive effect on the growth of the local industry and skilled jobs.
Th ....New Directions in Silicon Solar Cell Technology. The fabrication of pure silicon is energy intensive, but solar cells can return 10 times more energy than is used to fabricate them. By investing in the development of silicon solar cells, Australia will develop a technology capable of encapsulating its vast coal resources within pure silicon. This has the potential to create an export market of clean energy and have an explosive effect on the growth of the local industry and skilled jobs.
This project will bolster the already prominent position of Australia in the field of photovoltaic solar energy by establishing collaborations with the top international organisations in the field. It will also coordinate efforts with all the main university research groups in the country. Read moreRead less
Photonic structures for high efficiency, low cost solar cells. Photovoltaics is a non-polluting, environmentally sustainable way of converting sunlight directly to electricity. The reduction of cost is the most important issue in photovoltaic solar energy conversion. This project will lead to the development of solar cell structures and techniques that have the potential to significantly reduce the cost of thin film solar cells, which are the major contender for the lowest cost photovoltaic te ....Photonic structures for high efficiency, low cost solar cells. Photovoltaics is a non-polluting, environmentally sustainable way of converting sunlight directly to electricity. The reduction of cost is the most important issue in photovoltaic solar energy conversion. This project will lead to the development of solar cell structures and techniques that have the potential to significantly reduce the cost of thin film solar cells, which are the major contender for the lowest cost photovoltaic technology. If the cost of photovoltaics was sufficiently reduced it could have a major impact on reducing greenhouse gas emissions and pollution in Australia.Read moreRead less
Overcoming performance limitations in multicrystalline silicon solar cells. This project aims to address the major impediments to improved efficiency of multicrystalline silicon solar cells, the most prevalent in industry today. Three key areas have been identified: understanding the fundamental source of carrier recombination in this material, the application of plasma silicon nitride to reducing this recombination, and developing a suitable technique for texturing the front surface of the cell ....Overcoming performance limitations in multicrystalline silicon solar cells. This project aims to address the major impediments to improved efficiency of multicrystalline silicon solar cells, the most prevalent in industry today. Three key areas have been identified: understanding the fundamental source of carrier recombination in this material, the application of plasma silicon nitride to reducing this recombination, and developing a suitable technique for texturing the front surface of the cells. By using novel, advanced techniques to gain a deeper physical understanding of these issues, it will be possible to develop new, cost-effective processes that improve efficiency and are applicable in industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882262
Funder
Australian Research Council
Funding Amount
$135,000.00
Summary
Photoluminescence imaging equipment for advanced silicon materials and solar cells. As the search for carbon-neutral sources of electricity intensifies during this century, an early lead in key technologies will be of great importance. Photovoltaics, in which Australian research is world-class, is clearly one such technology. The proposed equipment would enable Australia to maintain and extend its leading role in the development of silicon photovoltaics. As a result, it will help Australia take ....Photoluminescence imaging equipment for advanced silicon materials and solar cells. As the search for carbon-neutral sources of electricity intensifies during this century, an early lead in key technologies will be of great importance. Photovoltaics, in which Australian research is world-class, is clearly one such technology. The proposed equipment would enable Australia to maintain and extend its leading role in the development of silicon photovoltaics. As a result, it will help Australia take advantage of the growing global boom in solar energy. The proposal is likely to generate commercially valuable outcomes, as well as scientific knowledge of intrinsic value. It will also increase support for Australia's existing photovoltaic industry.Read moreRead less
Lifetime spectroscopy of impurities in silicon solar cells. This project aims to apply recently developed experimental techniques to the important problem of characterising impurities in silicon, with a strong focus on solar cell applications. These new spectroscopic techniques, which are based on carrier lifetime measurements, are more sensitive and less ambiguous than most existing methods. The results will have important implications for solar cell technologies in two independent ways - first ....Lifetime spectroscopy of impurities in silicon solar cells. This project aims to apply recently developed experimental techniques to the important problem of characterising impurities in silicon, with a strong focus on solar cell applications. These new spectroscopic techniques, which are based on carrier lifetime measurements, are more sensitive and less ambiguous than most existing methods. The results will have important implications for solar cell technologies in two independent ways - firstly, by allowing accurate diagnosis of the performance-limiting impurities in standard silicon solar cells - and secondly, by identifying particular impurities which could boost cell performance beyond the conventional limit through the impurity photovoltaic effect.Read moreRead less
Spray-on Hydrogenated Films for Solar Cells. A successful project will contribute to a reduction in the cost of photovoltaic solar energy. This goal might be reached directly, via the development of spray-on hydrogenated films, or indirectly, through an improved knowledge of hydrogen passivation. Either way, the project will provide Australian Partner Investigator, Spark Solar, with a manufacturing edge over its global competitors. In so doing, it will support the burgeoning photovoltaic industr ....Spray-on Hydrogenated Films for Solar Cells. A successful project will contribute to a reduction in the cost of photovoltaic solar energy. This goal might be reached directly, via the development of spray-on hydrogenated films, or indirectly, through an improved knowledge of hydrogen passivation. Either way, the project will provide Australian Partner Investigator, Spark Solar, with a manufacturing edge over its global competitors. In so doing, it will support the burgeoning photovoltaic industry in Australia, providing jobs in manufacturing and research, and increasing the viability of photovoltaic energy as an alternative to fossil fuels. The project will also help keep Australia at the forefront of advances in photovoltaics and semiconductors.Read moreRead less
Evaluating regulatory initiatives directed at audit firms to improve audit quality. This project will provide evidence as to whether recent regulatory initiatives are improving the quality of audits and provide a comparison of benefits associated with audit firm inspections under differing regulatory schemes. It will inform discussion as to whether these initiatives overcome identified problems in audit quality of listed companies.