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Field
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focuses on the development and optimization of polymer-based excipients for bacteriophage stabilization, addressing a critical challenge in the storage, transport, and application of phages in medicine
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polymers, foams and composites. The role is highly hands‑on and creative: you will manufacture new polymer formulations, refine processing routes, and carry out mechanical, fracture, thermal and
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, energy-efficient conversion within milliseconds. You will convert recovered silicon into battery anodes, transform polymers into carbon nanomaterials, develop industrial ceramics routes, and create
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science, polymer engineering, physics, and chemistry. About us This position will be placed in the Division for Computational Mechanics and Materials Engineering , which belongs to the department
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predictable drug release using state of the art facilities and equipment. Your profile enthusiastic and curious personality PhD degree in organic/polymer chemistry or a related field strong expertise in
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on the physical chemistry and materials science of organic semiconductors, polymer blends and composites, and develops new plastic materials for use in the fields of wearable electronics and energy technology. All
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, energy-efficient conversion within milliseconds. You will convert recovered silicon into battery anodes, transform polymers into carbon nanomaterials, develop industrial ceramics routes, and create
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materials science of organic semiconductors, polymer blends and composites, and develops new plastic materials for use in the fields of wearable electronics and energy technology. All research is conducted in
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depositing ATOX-resistant coatings on polymers relevant for satellite construction, such as carbon fiber reinforced polymers, using plasma processes at low pressure and atmospheric pressure. The work will
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PostDoc positions to undertake research in the area of expertise related to : Organic chemistry Polymer Science Hydrometallurgy Minerals engineering Environmental Science 1. Job description Subject 1