Below you'll find a list of all posts that have been categorized as “RMIT”
An MP visit last week provided an opportunity to discuss future electronics, 2D materials and science policy. Melbourne MP and Greens Science/Energy spokesperson Adam Bandt was visiting FLEET’s labs at RMIT, hosted by FLEET RMIT node leader Kourosh Kalantar-Zadeh, and FLEET Director Michael Fuhrer. As well as FLEET researchers, Adam also got to meet our scientific counterparts from the Centre for …
“Endless” possibilities for custom nanotech design FLEET’s research to achieve zero-dissipation electrical current depends on the design of key nanoscale structures. Within FLEET, nano-device fabrication is coordinated via Enabling technology B, which links each of the research themes. In 2017, Theme B leader Lan Wang, and PhD student Cheng Tan, developed a method to build such nanoscale structures, required to achieve zero-dissipation …
“It’s so simple my retired parents could do this in their kitchen.” FLEET AI Torben Daeneke discussed deceptively-simple methods of depositing atomically-thin materials with Rohan Neagle, on Radio Adelaide’s Subatomic radio show. Torben’s interview also covered why 2D materials are key to ultra-low energy electronics, the mechanics of 2D deposition, the end of Moore’s Law and the massive amount of …
This month’s ARC funding round saw FLEET research and researchers across five universities awarded additional funding. Across eight separate grants, almost $4.6m new research funding went to projects and facilities led by or involving FLEET researchers or directly contributing to FLEET’s search to develop ultra-low energy electronics and boost related areas of research. Two projects in particular will be key …
FLEET researchers undertake various research projects in the area of Topological Materials. If you have a project that would fit this theme, find information about a potential supervisor here: PROF. MICHAEL FUHRER Experiments on electronic devices made from novel two-dimensional materials such as graphene, layered transition metal dichalcogenides, topological insulators. Scanning tunnelling microscopy. Surface science A/PROF. NIKHIL MEDHEKAR Computational mechanics …
A variety of methods exist to deposit atomically-thin (two-dimensional) crystals. But large-scale deposition has remained a challenge. However a recent RMIT-led study has found success with a new technique with potential to open new doors for two-dimensional semiconductors. The discovery has been described as a ‘once-in-a-decade’ advance. The new technique introduces room-temperature liquid metals (gallium-based) as a successful reaction environment …
Kourosh Kalantar-zadeh’s ingestible smart pill could revolutionise prevention and diagnosis of gut disorders/disease, and make a significant difference to the health of as many as one in five Australians who suffer gut disorders. This month the technology won the prestigious 2017 IEEE Sensors Council achievement award in the field of sensors. Read more at RMIT. At RMIT,Prof Kalantar-zadeh is Director …
FLEET features in this month’s annual ‘nano’ edition of the Australian Manufacturing Tech magazine. The article looks at growth of atomically thin and other novel materials and nanofabrication, with a particular focus on partnerships. Atomically thin material projects presented include semiconductor fabrication at RMIT University (Lan Wang) and the University of Wollongong (Xiaoliang Wang) and molecular beam epitaxy (Mark Edmonds …
