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two publications in SCI top-tier journals in relevant fields. Possess research experience in porous metal high-damping materials and disordered elastic metal interpenetrating phase composites, with over
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nanomaterials. This will be achieved by developing and codifying DES-based routes to key classes of environmentally relevant nanomaterials, including (photo)electrocatalytic metal oxides; phosphate-based
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energy-related systems such as lithium-ion and lithium-metal batteries. Familiarity with high-throughput simulation workflows and materials discovery pipelines. Demonstrated ability to design and fabricate
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to the Singapore Centre for 3D Printing (e.g. competitions, conferences and hosting visits) Requirements: Ph.D. in the area of Industrial, Mechanical, and Materials Engineering Engineering Design and Optimization
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in solidification and casting of metallic materials, and in-depth research knowledge and hands-on skills of microstructure and mechanical properties characterisation of metallic materials, in
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materials science and engineering, manufacturing or other suitable engineering disciplines. Research experience in solidification and casting of metallic materials, and in-depth research knowledge and hands
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facilities in electrochemistry, materials chemistry, spectroscopy, microscopy, modelling and battery and fuel cell construction and testing, we aim to develop next generation electrochemical energy
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, metal-organic frameworks, and perovskitoid microstructures. Develop materials platforms for long-persistent luminescence and NIR-II emission applications, with potential use in information photonics and
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world transitions to more sustainable energy, increased metal demand combined with consumer desires for a reduced environmental footprint, means novel exploration techniques are being investigated. As part of
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Carnegie Mellon University. The Postdoctoral Fellow will be investigating the anti-microbial properties of multi-component metallic alloy surfaces and conducting work at CMU. The surfaces of common objects