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this PhD research project, luminescent materials for building integrated photovoltaic (BIPV) technology will be developed. The PhD will make and study new types of strongly absorbing luminescent solar
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processes to synthesize nanomaterials with well-defined atomic structures, assemble these nanomaterials into functional macroscale structures, and use these novel materials for sustainable energy and
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as well as material science Very good knowledge of vacuum technology, especially in materials science for UHV suitable materials Very good knowledge in the field of design engineering Experience in
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alternatives to fossil fuels is an imperative of modern society. Biomass waste, such as waste from crop productions or cuttings of invasive species, offers a sustainable and renewable source of energy. In
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of work is Department of Biological and Chemical Engineering, Section for Process Materials and Engineering, Aabogade 40, 8200 Aarhus N., Denmark. Contacts: Applicants seeking further information
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technology transfer and an insilico approach to the development of continuous processes based. The project will use as a baseline the mAb solutions platform process and standard downstream operations as
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particle size changes due to breakage and agglomeration. The rates are dependent on process parameters (e.g., impeller speed and operation) and material properties (e.g., hardness and flowability
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) Supervisors: Professor Paul Meredith Dr Greg Burwell Professor David Ritchie Professor Su Varma (NSG Pilkington) Aligned programme of study: PhD in Physics or Materials Science Mode of study: Full-time for four
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with the focus on fluid dynamic simulations. Furthermore, the ideal candidate should have hands-on experience from modelling material transport in fluidized beds or spray drying. Experimental background
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This exciting fully funded PhD, with an enhanced stipend of £24,000 per annum, will focus on the application of nanobubbles to support waste management at the UKs designated nuclear waste management