研究领域
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The Smart Surface Structures research group at Flinders is primarily interested in technology enabling surface architectures, which are achieved through exploiting the physics and chemistry of surfaces and interfaces. We seek to understand atomic and molecular mechanisms that take place and with knowledge of these, produce enhanced interfaces with properties tailored and optimised for their specific application. At the moment, our group's research effort is concentrated in the following areas
Atomic and Molecular Surface Nanostructures - Nanoscale surface phenomena, mechanisms of assembly, structural transitions and kinetic processes in atomic and molecular surface clusters, nanoparticles and thin films
Surface Attachment - supporting structures for sensor design materials
Surface Modification - tailoring the chemical, physical and mechanical properties of surfaces and interfaces for compatibility in their specific application
Corrosion protection - alternatives to currently used, hazardous, inorganic treatments
Novel Photovoltaics - building new architectures for harvesting solar power
Catalysis - the influence of morphology and particle size upon catalytic behaviour of surfaces
Polymer Physics - the influence of crystallinity and morphology on material properties
Molecular Electronics - aimed at producing atomic and molecular-scale wires on surfaces
and involves a range of spectroscopic and surface science techniques, such as (but not limited to) electron spectroscopy (XPS, UPS, AES) and microscopy (SEM, TEM, SAM), streaming zeta-potential (SZP), mass spectrometry (ToFSIMS), scanning probe microscopies (STM, AFM), Raman confocal microscopy and synchrotron measurements