19 renewable-energy "European Molecular Biology Laboratory (EMBL) " PhD positions at RMIT University in Australia
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The scholarship is for young talents who want to pursue a career in renewable energy and advanced materials. The candidates will do experimental work in materials synthesis, characterisation and
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$52,500 per annum for 3.5 years $52,500 per annum for 3.5 years 31st December 2023 31st December 2023 One scholarship available. One scholarship available. The successful applicant is required to have Australia citizen or an Australian permanent resident at the time of award. The successful...
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Waste Heat is a huge challenge in the global energy transition. We are developing new materials and system to enhance the conversion of heat to electricity. Using Advanced Materials we
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can provide significant benefits, such as creating new-generation of soft energy devices and advance Australian expertise in photochemistry, self-assembly and functional nanomaterials. The proposed 2D
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advanced materials and printing methodology enabled sustainable process for elastomer compositions for tyre treading that will enable efficient and reliable renewal of tyre in short time by machine
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characterisation for all optical communications 2D materials and graphene photonics 3D printing of composite materials Nanophotonics solar energy harvesting, storage and applications Photonics approach for solar
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This project will examine the behaviour of nanocarriers at cell/bacteria surfaces and response to biological environments and molecules (such as proteins). Research will utilize a suite of cutting
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anti-cancer roles of these compounds via modulation of the immune system, with particular focus on effector (Teff) and regulatory (Treg) T cell populations. This project aims to identify changes in
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devices and wider deployment of convenient and just-in-time services, thus enabling the development of novel applications, such as the crowdsourcing of green energy. The aim of the project is to address
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PhD Scholarship in ‘Using nanoparticles to enhance the immune response and improve vaccine efficacy’
to the vaccine, particularly regarding inducing a T cell response. Our lab focuses on viral sized nanoparticles as adjuvanting vaccine delivery systems to improve both the antibody mediated and cellular immune