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identified in Wound Booster, the sensors will also include known biophysical markers, and known inflammatory markers characteristic for CW. You will work in close collaboration with two other Empa PhD students
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. Empa is a research institution of the ETH Domain. The Laboratory of High Performance Ceramics is offering a PhD position focused on the development of new catalytic materials for CO2 conversion
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is a key-enabling technology for advanced manufacturing. In order to address increasingly complex demands on joining (dissimilar materials combinations, miniaturisation, extreme operation conditions
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of this project, you will work with a team of scientists with backgrounds in chemistry, cell biology and microbiology as well as with clinical partners on the development of engineered corneal transplant to treat
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. Empa is a research institution of the ETH Domain. Your tasks Your tasks will focus on the design and operation of experiments to investigate the failure mechanisms in wooden structures. This will require
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. The Laboratory of High Performance Ceramics is offering a PhD position focused on the development of new catalytic materials for CO2 conversion. This project will center on high-entropy oxides, a promising class
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. Empa is a research institution of the ETH Domain. Applications are invited for a PhD position in the Air Quality and Particle Technology group (Prof. Dr. J. Wang). The successful candidate will work in
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. Empa is a research institution of the ETH Domain. Empa's Laboratory for High Performance Ceramics is involved in the scientific research, development and characterization of advanced ceramics, composites
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of the lower back and one of the most common reasons for spinal surgery in people over the age of 65. However, the choice between the two major types of surgical treatment - decompression or fusion - remains con
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work in close collaboration researchers and clinical experts from the University of Bern. Your contribution: Application and further development of 3D virtual histopathology by X-ray phase contrast micro