Epitaxial Nanowires for Optoelectronic Device Applications. Nanotechnology is expected to make a major impact in all industrial sectors and multi-trillion dollar economic activity is expected by 2020. Nanowires are considered to be new building blocks for future electronics and photonics technologies and our aim is to develop nanowire based technologies which are of benefit to Australian industry. This project will develop patentable technologies as well as enhance international links with UK, ....Epitaxial Nanowires for Optoelectronic Device Applications. Nanotechnology is expected to make a major impact in all industrial sectors and multi-trillion dollar economic activity is expected by 2020. Nanowires are considered to be new building blocks for future electronics and photonics technologies and our aim is to develop nanowire based technologies which are of benefit to Australian industry. This project will develop patentable technologies as well as enhance international links with UK, China, Sweden and Norway. Training of postgraduate students and post-doctoral fellows in the field of nanotechnology will be of immense benefit to Australian industries, research and academic institutions. Read moreRead less
Photonic Crystal Quantum Dot Lasers. Nanotechnology is expected to make a major impact in all industry sectors. This research has the potential to develop patentable technologies of interest to Australian industries in the fields of computers, communications, defence, environmental and medical sensing. This project will enhance Australia's international links with UK, France, Canada, Korea and USA and allow us to train skilled personnel essential for the development of high tech industries in ....Photonic Crystal Quantum Dot Lasers. Nanotechnology is expected to make a major impact in all industry sectors. This research has the potential to develop patentable technologies of interest to Australian industries in the fields of computers, communications, defence, environmental and medical sensing. This project will enhance Australia's international links with UK, France, Canada, Korea and USA and allow us to train skilled personnel essential for the development of high tech industries in Australia. Read moreRead less
Nanocavities and Nanoparticles in Silicon-based Materials Tailored by Ion Implantation. Nanometre sized crystals embedded in different host materials can exhibit novel optical behaviour, including light emission. However, the optical properties depend critically on the ability to tailor the size and size distribution of such nanocrystal inclusions, parameters that are extremely difficult to control. This project is based on our previous discovery that small holes of controlled size and distri ....Nanocavities and Nanoparticles in Silicon-based Materials Tailored by Ion Implantation. Nanometre sized crystals embedded in different host materials can exhibit novel optical behaviour, including light emission. However, the optical properties depend critically on the ability to tailor the size and size distribution of such nanocrystal inclusions, parameters that are extremely difficult to control. This project is based on our previous discovery that small holes of controlled size and distribution can be formed in silicon by ion irradiation and that such cavities can be filled with fast diffusing elemental species. We intend to explore this novel concept to tailor the size of desired nanocrystals in silicon-based materials for optoelectronics applications.Read moreRead less
Fundamental Implantation, Epitaxy and Defect studies in Silicon to support ultra-shallow junction formation. If successful this project will provide key data and understanding that are fundamentally important for semiconductor science and technologically essential for the global semiconductor industry. Hence successful outcomes will benefit the Nation by raising the international profile of Australian science in these areas. More direct benefit will be derived from the two Australian ventures ....Fundamental Implantation, Epitaxy and Defect studies in Silicon to support ultra-shallow junction formation. If successful this project will provide key data and understanding that are fundamentally important for semiconductor science and technologically essential for the global semiconductor industry. Hence successful outcomes will benefit the Nation by raising the international profile of Australian science in these areas. More direct benefit will be derived from the two Australian ventures that require successful implementation of ultra-shallow junction formation. One is the new silicon phase-change memory company, WRiota, that requires ultra-shallow silicon layers. The second is the quantum computing initiatives in silicon, where understanding of defect-mediated processes in shallow implanted layers is essential to the technology.Read moreRead less
Growth and intermixing of quantum dots for multi-wavelength infrared photodetectors. Quantum dots are nano-scale structures grown by self-assembled epitaxial methods. In this project, intermixing of quantum dots, which is a novel technology to modify the opto-electronic properties of the dots will be studied using ion implantation and subsequent annealing. Optimised growth, implantation and annealing conditions will be used to grow and tune the detection wavelength of the infrared photodetectors ....Growth and intermixing of quantum dots for multi-wavelength infrared photodetectors. Quantum dots are nano-scale structures grown by self-assembled epitaxial methods. In this project, intermixing of quantum dots, which is a novel technology to modify the opto-electronic properties of the dots will be studied using ion implantation and subsequent annealing. Optimised growth, implantation and annealing conditions will be used to grow and tune the detection wavelength of the infrared photodetectors using intersubband transition. This will allow us to fabricate multi-wavelength infrared photodetectors for high performance infrared imaging system. This project involves an exciting combination of fundamental physics and device technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0667994
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
National Nanolithography Facility. Nanotechnology is expected to have a major impact on quality of life and global economy. It is predicted to generate revenues as big as the ICT sector in 20 years time. The National Nanolithography Facility will enhance the Australian capability in the field of nanoscale science and technology. This will enable Australian researchers to achieve major impacts in many areas of nanotechnology with a strong potential impact on industry sectors such as computers, ....National Nanolithography Facility. Nanotechnology is expected to have a major impact on quality of life and global economy. It is predicted to generate revenues as big as the ICT sector in 20 years time. The National Nanolithography Facility will enhance the Australian capability in the field of nanoscale science and technology. This will enable Australian researchers to achieve major impacts in many areas of nanotechnology with a strong potential impact on industry sectors such as computers, communications, defence, health, bio-security. This facility has the potential for developing new technologies of fundamental as well as applied interest.Read moreRead less
ARC Nanotechnology Research Network. The field of nano scale science, engineering and technology (in short nanotechnology) is just emerging and it is predicted to make a major impact in all technologies and areas of society. Australian Nanotechnology Network intends to harness the combined Australian capability to enable Australia to take a leading role in this rapidly growing field.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882816
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Micro and Nanostructure Optical Characterisation Facility. This facility will allow the carrying out of research in the area of micro and nanostructures which are of interest to Australian industry. Access to state of the art facilities will provide opportunities to train PhD students and post-doctoral fellows in the advanced science and technology fields of national and industrial interest. New technologies developed in this area have the potential to improve the quality of life, e.g. National ....Micro and Nanostructure Optical Characterisation Facility. This facility will allow the carrying out of research in the area of micro and nanostructures which are of interest to Australian industry. Access to state of the art facilities will provide opportunities to train PhD students and post-doctoral fellows in the advanced science and technology fields of national and industrial interest. New technologies developed in this area have the potential to improve the quality of life, e.g. National security, communications, health care.Read moreRead less
Ion implantation engineered photonic devices for use in highly integrated silicon optoelectronic circuits. This project establishes a collaboration with Canada's leading integrated silicon photonics research group thus tapping into years of valuable experience transferable to Australian-based researchers. The involvement of students as well as early career researchers ensures a new generation of Australian experts in this field. The importance of silicon photonics means that Australia must estab ....Ion implantation engineered photonic devices for use in highly integrated silicon optoelectronic circuits. This project establishes a collaboration with Canada's leading integrated silicon photonics research group thus tapping into years of valuable experience transferable to Australian-based researchers. The involvement of students as well as early career researchers ensures a new generation of Australian experts in this field. The importance of silicon photonics means that Australia must establish a strong research program in the area to maintain its current position as being at the forefront of leading-edge research. This is only possible through collaborations such as that proposed here.Read moreRead less
Monolithic Integration of Silicon Waveguide and Ge1-xSix Photodetector on Silicon-on Insulator Platform for Intra-chip Optical Interconnect. Photonics has become the major technology underpinning the communication and storage of data. As photonics advances applications are emerging which demand components be manufactured cheaply in the manner achieved by the electronics industry in the silicon chip. Silicon is now emerging as an important photonic material and devices can benefit from inexpensiv ....Monolithic Integration of Silicon Waveguide and Ge1-xSix Photodetector on Silicon-on Insulator Platform for Intra-chip Optical Interconnect. Photonics has become the major technology underpinning the communication and storage of data. As photonics advances applications are emerging which demand components be manufactured cheaply in the manner achieved by the electronics industry in the silicon chip. Silicon is now emerging as an important photonic material and devices can benefit from inexpensive processing methods developed for electronics. This project aims to capture key intellectual property for monolithically integrating key photonic components onto a silicon platform. The project can bring social and commercial benefits to Australia such as high-level research and training in nanotechnology as well as opportunities for commercialisation in niche markets.Read moreRead less