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- Basque Center for Macromolecular Design and Engineering, POLYMAT Fundazioa
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project will be the research and development of new methods that allow to anticipate the olfactory impact of aromatic compositions allowing to provide new tools to perfumers during the process of creating a
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and composition at the atomic scale allowing to understand the growth mechanisms of nanomaterials. We have been able to understand the mechanisms of the polarity-driven growth in free-standing
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the frame of this ambitious project, we are offering a postdoctoral position on aerosol microphysics in the Atmospheric Composition (AC) group of BSC-ES. The overall objective is to investigate
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in developing and characterizing sustainable polymer/composite materials for agrifood applications. Proficiency in plant-food science is also desirable. A strong command of written and spoken English
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prediction, global health resilience, and Earth system services for end users. Within the BSC-ES, the Atmospheric Composition Group develops a modelling capability to combine atmospheric dynamical and chemical
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atmospheric composition modeling, climate prediction and climate services in Europe. The Department comprises about 160 people, including scientists and technical staff. It is structured into five distinct but
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and control of the mechanisms that relate the functionality and supramolecular structure with the microscopic composition of the constituents is key to the development of new intelligent materials and
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Basque Center for Macromolecular Design and Engineering, POLYMAT Fundazioa | Spain | about 1 month ago
, engineering, biochemistry, or a related field, with demonstrated research experience in developing and characterizing sustainable polymer/composite materials for agrifood applications. Proficiency in plant-food
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prediction, global health resilience, and Earth system services for end users. Within the BSC-ES, the Atmospheric Composition Group develops a modelling capability to combine atmospheric dynamical and chemical
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, prediction and composition. His/her work will address (i) Overcome challenges related to the dynamicity of computing resource pool; (ii) Design an abstraction layer to simplify intra-DIMO resource management