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. The successful candidate will focus on molecular seed quality assessment using high-throughput metabolomics (LC MS/MS) and proteomics to support the breeding of climate-resilient crops. You will work with a
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the wetlab, by fast turnaround of the analysis of generated data, allowing to make informed decisions for the next experiments to be performed. About lab Different epigenetic layers regulate gene expression
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make a difference in the world! Position Information We are seeking a postdoctoral position focused on the development and deployment of computer vision and intelligent robotic systems through physics
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required in the organization of the logistics operations of educational processes to achieve a high quality situation where any learner at any time based on their own learning speed, level and ambition can
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environments (i.e., indoor farming, greenhouse, and high tunnel settings). Our goal is to find sustainable solutions to pest problems in controlled environments. The postdoctoral associate will perform
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University of New Hampshire – Main Campus | New Boston, New Hampshire | United States | about 4 hours ago
to perform research within two of Jönsson’s grants. The work will entail modelling, data analysis, processing of satellite imagery, and other types of research. Tasks will also include writing and data
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at the Humanitas University campus. Their common mission is advancing science to make a difference in patients' life. Humanitas Research is guided by unmet clinical needs and it leverages high-end technologies
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skills in data analysis, machine learning, as well as in mathematical and computational modelling? You will have the opportunity to investigate innovative solutions using machine learning algorithms and
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environment in the fields of science, technology and administration as well as for the education of highly qualified young scientists. The computational imaging group at DESY is concerned with the development
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into electricity through innovative thermoelectric generators (TEGs) that perform efficiently even under small temperature differences (ΔT ≤ 30 K), we aim to redefine how IoT devices are powered. This research has