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(especially silicon-based anode) and cathode have their issues. This PhD position will focus on the development of a new binder system, which includes both the synthesis/modification of the biomaterials-related
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on the development of a new binder system, which includes both the synthesis/modification of the biomaterials-related binders and also development of a new electrode manufacturing process. Being part of
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technology and with reduced environmental impact. Within the project we study patches based on biomaterials, which are biodegradable without microplastic waste, as well as new methods for reusing electronic
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environments. Project description The project is about developing smart patches with more sustainable technology and with reduced environmental impact. Within the project we study patches based on biomaterials
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attitude. Knowledge or experience in biomaterials – cell interactions and membrane technology, which are preferred. The ability to work independently and possess excellent theoretical, experimental, and
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part in interdisciplinary laboratory tasks including microalgae cultivation, biomaterial purification, mass spectrometry and X-ray/electron/laser-scanning microscopy techniques. The project will involve
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the distribution of them nationally. You will hold a PhD/Dphil or be near completion* in Biomaterials or Biochemical Engineering together with relevant experience in 3D cell/tissue culture, bioreactor
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) Biomaterials and regenerative medicine, (2) (Bio)artificial organs, (3) Engineered therapeutics. Its mission is: 1. To provide innovative technological solutions to patients suffering from chronic and malignant
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Funding providers: EPSRC and Swansea University's Faculty of Science and Engineering Subject areas: Polymer and Glyco Chemistry, Biomaterials, Antimicrobials Project description: A significant
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relevant discipline (Engineering, materials science, biomaterials healthcare technology etc), as well as experience in performing experimental work, collecting data and analysing research findings. How