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overcoming the limitations of existing nanomaterials—such as poor nanochannel structure, low chemical stability, and high internal resistance—this project introduces an innovative platform for efficient ion
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to the damage tolerance design of structures. Cyclic loading causes adverse effects and leads to accumulated damage and degradation of residual strength in composite laminates. Predicting the residual strength
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respectively. Experimental investigations will be carried out using a bench-scale experimental CVD rig to study the reaction mechanisms. Several advanced characterization methods (such as SEM-XRD, TEM, XRF, EDS
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with large-area, ultrathin thickness, and high flexibility, understanding their plasmonic enhancement mechanisms, and construction of artificial leaves to perform the solar-to-chemical conversion, which
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/grades, relevant professional experience, publications (if any), awards (if any), and names of referees. Knowledge and background in Solid Mechanics, Structural Mechanics, and Engineering Materials
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Honours in civil/mechanical/manufacturing engineering or another suitable field. Preferred applicants: Australian citizens, Australian permanent residents or on-shore international applicants. To be