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the School of Pharmacy. We are looking for a candidate with proven experience in the design, production, and analysis of peptide composite powder via spray drying. The successful candidate will be expected
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experience in the design, production, and analysis of peptide composite powder via spray drying. The successful candidate will be expected to apply their experience to prepare peptide powders via spray drying
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Description Whether behaving as a solid, fluid or gas, powder is a state of matter that is difficult to model on a large scale, specifically in industrial equipment. The sizing of powder agitation devices and
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objectives focus on characterizing powder properties and their influence on pellet formation, examining the effects of additives and manufacturing routes on fuel pellet microstructure, and investigating
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to improve performance and reliability (www.faraday.ac.uk ). As Research Associate you will conduct research that will focus on the design and development of new ways to process dry powdered lithium
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mechanisms of UO₂ and high-Pu MOX fuel materials. The scientific objectives focus on characterizing powder properties and their influence on pellet formation, examining the effects of additives and
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multi-layer systems using a strip casting process. The project is divided into 2 tasks, as follows: 1) Development of an optimum casting formulation based on the starting powder supplied. Optimization
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of crystalline inorganic compounds in powder and single crystalline form Performing x-ray diffraction experiments and data analyzation Analyzing EDX and XPS spectra to ensure the quality and purity of synthesized
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Particle Engineering for Next Generation Batteries, you will conduct research into new particle and powder engineering methodologies for lithium-ion battery electrode manufacture. You will collaborate within
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Fuel Cells (MFCs) by developing 3D-printed titanium electrodes using Laser Powder Bed Fusion (LPBF) technology to achieve trabecular and porous structures optimised for microbial growth. Titanium is