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World class facility provides vision for the future10 December 2008
Monash University has become home to one of the world's most powerful electron microscopes, part of a new facility to study the structure of materials. The "Double aberration corrected Titan 80-300 cubed transmission electron microscope", worth more than A$9 million, can see atoms with a clarity never before achieved. It is one of only four microscopes of this type in the world and is the first outside of North America. The Victorian Minister for Innovation Gavin Jennings opened the A$37 million Monash Centre for Electron Microscopy (MCEM), which is home to the Titan - the most powerful of ten high-performance microscopes housed in the purpose-designed building, and one of the most stable ever constructed. MCEM Director Associate Professor Joanne Etheridge said the new facility would allow scientists to gain a deeper understanding of the atomic structure of a wide range of materials. "Everything in the world is made of atoms," Associate Professor Etheridge said. "By illuminating atomic structures, the powerful microscopes at MCEM give scientists the knowledge they need to develop new and better materials such as faster computer chips, more efficient solar cells, smarter plastics and lighter, stronger metals for energy efficient transport." Monash University Deputy Vice-Chancellor (Research) Professor Edwina Cornish said the world-class research centre would enable new technological and industrial innovations, as well as help scientists understand the fundamental workings of the physical world. The centre, based at the Clayton campus, was purpose-built to house the highly sensitive microscopes and uses special design features to protect the microscopes from mechanical, acoustic, thermal and electro-magnetic interference. The centre has attracted expert staff with specialist expertise in microscopy from leading centres around the world, including Oxford, Cambridge and Cornell universities. MCEM supports a wide variety of disciplinary and interdisciplinary research projects, covering topics including corrosion, catalysis, optics, superconductivity, alloys, ceramics, polymers, biomaterials, microelectronics and nanotechnology. The centre serves and collaborates with researchers both nationally and internationally and also plays a key role in educating students in microscopy, supporting the research projects of over 100 postgraduate students. Primary funding for the centre and its instruments was provided by the Victorian Government, the Australian Research Council and Monash University. |
