The Institute was established in 2002 as one of four new UTS Research Institutes aligned to the national science priority areas.
Our vision is to establish UTS as a leading international player in selected key areas of nanotechnology. To achieve this objective, we have combined certain pre-existing technological strengths at UTS with new, carefully-chosen focus topics, in order to synthesise three exciting multidisciplinary nanotechnology research themes:
The goals of these research themes have been further integrated into three interdisciplinary research initiatives: the 'Nanohouse' , the 'Nanobody' and 'Nano-equity'. These three projects interconnect individuals, departments and faculties, providing a sense of common purpose and tangible objectives.
In this site we explain a little about nanotechnology in Australia and the wider world, provide greater information about our current research projects and outline opportunities for nanotechnology study at UTS.
We hope you enjoy our site and welcome any inquiries you may have regarding nanotechnology or our research.
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Nanohouse To Blend Nanotechnology And Conventional Materials In The Building Industry - News Item
Prof. Hongxia Wang
We speak with Professor Hongxia Wang from QUT about a new project that hopes to utilize graphene and other low-cost carbon materials to produce commercially viable, ultra low-cost, flexible perovskite solar cells.
Moti Segev & Vlad Shalaev
In this interview, AzoNano speaks to Professor Moti Segev and Professor Vladimir Shalaev, who made surprising discoveries about photonic time crystals that challenge existing research and theories.
Siyu Chen, Ph.D.
In this interview, we discuss a new approach to surface-enhanced Raman spectroscopy that utilizes nano-pockets to capture target molecules, ensuring a highly sensitive way to detect chemical processes.
This product profile from Merck outlines information about ultrastable fluorescent silica nanobeads.
The ClearView scintillator camera that elevates your everyday transmission electron microscopy (TEM).
Achieve high-throughput co-localized imaging and in-situ nanoindentation with Bruker’s Hysitron PI 89 Auto SEM.