Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify a ....Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify and build 2D hybrids are technically challenging and slow. Expected outcomes include defining a new paradigm for efficient identification and synthesis of 2D hybrids with exotic, bespoke properties. The generation of a large database of materials for researchers/industry would be of wide benefit.Read moreRead less
In Silico Discovery and Design of 2D Ferromagnets for Nanoscale Electronics. Two dimensional (2D) ferromagnets have great promise for next generation electronics, but suffer from small magnetic anistropy and low Curie temperature for application at the ambient condition. This project aims not only to tackle this challenge by discovering and designing 2D ferromagnet with large anistropy and Curie temperature, but also to engineer 2D ferromagnet with highly mobile electron or extra ferroelectricit ....In Silico Discovery and Design of 2D Ferromagnets for Nanoscale Electronics. Two dimensional (2D) ferromagnets have great promise for next generation electronics, but suffer from small magnetic anistropy and low Curie temperature for application at the ambient condition. This project aims not only to tackle this challenge by discovering and designing 2D ferromagnet with large anistropy and Curie temperature, but also to engineer 2D ferromagnet with highly mobile electron or extra ferroelectricity for novel nanoelectronic device. The technological outcomes will impact on the Australian economy through the potential for new knowledge-based electronics industry. Strong collaboration with leading expert will enable this Australian theoretical team to continue to establish itself as a leader in the field of 2D materials.Read moreRead less
ARC Centre of Excellence for Engineered Quantum Systems. The future of technology lies in controlling the quantum world. The ARC Centre of Excellence for Engineered Quantum Systems (EQuS) will deliver the building blocks of future quantum technologies and, critically, ensure Australian primacy in this endeavour. Three strategic research programs will target Quantum Measurement and Control; Synthetic Quantum Systems and Simulation; and Quantum-Enabled Sensors and Metrology. Within these programs, ....ARC Centre of Excellence for Engineered Quantum Systems. The future of technology lies in controlling the quantum world. The ARC Centre of Excellence for Engineered Quantum Systems (EQuS) will deliver the building blocks of future quantum technologies and, critically, ensure Australian primacy in this endeavour. Three strategic research programs will target Quantum Measurement and Control; Synthetic Quantum Systems and Simulation; and Quantum-Enabled Sensors and Metrology. Within these programs, our Centre will exploit the deepest principles and resources of quantum physics to solve specific problems in engineering, chemistry biology and medicine, stimulating the Australian scientific and engineering communities to exploit (and benefit from) transformative quantum devices.Read moreRead less