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requirement of the position. Ideally suited candidates must have: - a master’s degree in Chemistry, Biochemistry, or Biotechnology - a strong grasp of fundamental concepts in organic
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on the www.burdynyenergylab.com We’re looking for a candidate with: An MSc in chemical engineering with electrochemistry and/or coordination chemistry experience An MSc in chemistry, and a strong background in synthetic organic
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in a relevant field, such as chemical engineering, physical chemistry, inorganic or coordination chemistry, radiochemistry, nuclear chemistry or similar combines creativity with a sound academic
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operation. During irradiation, numerous fission products are generated, which will affect the chemistry and properties of the fuel. Understanding and modelling the irradiated fuel chemistry and properties is
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inorganic (physical) chemistry. Strong analytical skills to develop models describing luminescence mechanisms and fit models to experimental data. 3. a proven interest in, and experience with, experimental
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entrepreneurial problem-solvers, both in business and in a social context. At TU Delft we embrace diversity and aim to be as inclusive as possible (see our Code of Conduct). Together, we imagine, invent and create
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a better understanding of the mechanisms at the core of the reactors: coupling between fluid flow and chemistry, coupling between solid phase and fluid flow, solid phase decomposition, pollutant
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& charge diffusion (Applied) physics, chemistry, computer science, imaging science, (electron) optics, solid-state physics, radiation chemistry 3. Signal generation and detection Artefact and charging damage
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, nanobiology, chemistry, or a closely related discipline. Have excellent written and spoken English skills (see below). Thrive in an international, ambitious, multidisciplinary, and highly collaborative