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networks. Specific topics include the design and optimization of distributed and massive MIMO for high-capacity coverage and low-latency wireless access; methods to support energy-neutral (passive) devices
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), we focus on the study and application of electronically and ionically conducting organic materials in an array of areas spanning energy harvesting, printed electronics, photonics, and bioelectronics
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interest in exploiting the combination of electronic and ionic charge for use in energy, internet-of-things, health care and biology applications. Research topics include synthesis, material science, theory
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electroactive materials. Its primary theme involves the coupling of ions and electrons as signal carriers for applications in printed electronics, organic energy- and electrochemical devices, and organic
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-cell acute lymphoblastic leukemia (T-ALL). The project will also include the study of how skewed X inactivation may contribute to T-cell-related disease. You will be part of an active research group
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have a habit of working with complex issues and are stable in pressured situations. Great emphasis is placed on personal suitability. The workplace You will work at the Division of Cell and Neurobiology
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others. Great emphasis is placed on personal suitability. Good ability to communicate in English, both orally and in writing, is a requirement. The workplace You will work at the Division of Cell and
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coupled to experimental and industrial collaborations where experimentalist synthesize novel materials in diamond anvil cell using extreme high pressures and temperatures; while industrial hard coating
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a central part of the clinical trajectory for many patients. Pathology involves microscopic study of human tissues and cell samples to detect and classify disease states. As imaging data increasingly