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-substrate interactions. Clone and express top candidates using high-throughput cell-free and bacterial systems. Perform structural and biophysical characterisation of designed enzymes Perform functional
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protein design tools to generate and prioritize inhibitor candidates with high predicted binding and selectivity. These designs will then be experimentally validated through a combination of affinity
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, sequencing, cell cultivation). Plan, perform, and analyse yeast and immunological experiments independently, driving the project forward (e.g., cellular assays, immunoassays, flow cytometry, cell sorting
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the SelSiCELL project which aims to make high performance solar cells based on selenium (c-Se) as the photoabsorber, and to make tandem solar cells based on the c-Se/c-Si architecture. The project is mostly
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efficiency and a high single-photon purity as well as indistinguishable photon emission. You will participate in a project team with several senior researchers and Ph.D. students, which will design and
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profile of CoaST at conferences, meetings etc. You are high performing, visionary and thrive on turning exiting challenges into solutions based on curiosity and an open mind for entering new paths when
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have demonstrated the ability to perform high quality research, having at least one paper published as a major contributor. Your primary responsibilities will be: Establish protocols for and perform stem
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of dynamic operation, which is essential for effective system-level integration. The technology should have a high and stable electrochemical performance. Furthermore, mechanical robustness is a challenge
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systems. Your primary tasks will be to: Perform linear and nonlinear optical characterization of higher-order mode fibers Develop and implement mode excitation techniques (e.g. using spatial light