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to support the property-driven design of molecules for ultrasensitive imaging and nano-optoelectronics applications. The project is supported by a range of national and international partners and provides
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functional polymer strands into these DNA devices, which allows them to respond to light, heat, or chemical environment. In this project you would design, construct, test, model, and develop DNA-polymer hybrid
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such as stiffness, nano-roughness, and viscoelasticity govern immune–bone interactions through mechanotransduction pathways. The goal is to design bio-instructive materials that actively direct immune and
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chemistry and nanoscale structure, these coatings will offer long-term, biocompatible protection against infection. The project will involve materials design, fabrication, characterisation, and biological
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available within the project “Innovative Nano-Catalysts from Recycled Materials.” The project aims to develop advanced catalytic materials derived from recycled transition-metal-rich waste, contributing
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nano-computed tomography, and scanning electron microscopy design and implement deep learning models to enhance resolution of large field-of-view imaging techniques integrate imaging data across
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, healing slows or fails. This PhD will explore how mechanical and topographical cues such as stiffness, nano-roughness, and viscoelasticity govern immune–bone interactions through mechanotransduction
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ultralow-power magnetic memory and logic [1]. We will design, build, and understand van der Waals (vdW) heterostructures that combine topological insulators (TI), transition-metal dichalcogenides, graphene
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The Adelaide Graduate Research School (AGRS) and SA Nano are partnering to create an internship opportunity for a University of Adelaide PhD student, to contribute to the following project. About SA
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When light illuminates nano-sized metallic structures, the free electrons in the metal collectively oscillate, creating `plasmons'. By specifically designing the geometry and arrangement of the nano