Theoretical and Numerical Analyses on Smart-Cut Technology. Smart-cut is an innovative and effective technique for fabricating high quality silicon-on-insulator structures which are widely used in the semiconductor and microelectronics industries. The quantification of the effects of processing parameters and the optimization of smart-cut process will be conducted in this project. The results are expected to make significant contributions to reducing cost, increasing efficiency and optimizing pr ....Theoretical and Numerical Analyses on Smart-Cut Technology. Smart-cut is an innovative and effective technique for fabricating high quality silicon-on-insulator structures which are widely used in the semiconductor and microelectronics industries. The quantification of the effects of processing parameters and the optimization of smart-cut process will be conducted in this project. The results are expected to make significant contributions to reducing cost, increasing efficiency and optimizing procedure by providing a theoretical and quantitative design methodology to improve the smart-cut technique. Consequently, the outcomes and results of the project will bring many benefits to and encourage further R&D in the semiconductor and microelectronics industries in Australia.Read moreRead less
A novel maskless process for patterning and doping of silicon. The outcomes of this research will have consequences for the semiconductor industry by providing the potential for a completely new process tool for patterning and doping in device and circuit fabrication. The technology is also applicable as a simple and inexpensive way to 'write' conducting and insulating regions in silicon and may thus be applicable for smart cards and small industry. Successful implementation of the research will ....A novel maskless process for patterning and doping of silicon. The outcomes of this research will have consequences for the semiconductor industry by providing the potential for a completely new process tool for patterning and doping in device and circuit fabrication. The technology is also applicable as a simple and inexpensive way to 'write' conducting and insulating regions in silicon and may thus be applicable for smart cards and small industry. Successful implementation of the research will raise Australia's international profile in this area. This work will be particularly beneficial to a new high-tech Australian company, WRiota, which specializes in device technology based in nanoindentation of silicon.Read moreRead less