186 postdoc-catalysis-stability-density-functional-theory PhD positions in Netherlands
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on synthetic and physical organic chemistry, inspired by Nature's principles of molecular assembly, recognition, transport, motion, and catalysis. The goal is to create new structures and functions, with
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and physical organic chemistry, inspired by Nature's principles of molecular assembly, recognition, transport, motion, and catalysis. The goal is to create new structures and functions, with an emphasis
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properties of catalysts together with statistical methods to derive predictive models for selective catalysis. In a data-driven approach, an initial set of reactions is analyzed and used to establish such a
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the tropics to the high northern latitudes of the North Atlantic where they cool and sink. This part of the density-driven global “conveyor belt” may be losing its strength due to ongoing global warming, with
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chemistry or a related field. Very strong academic performance. Experience in experimental organic chemistry. Experience in experimental homogeneous catalysis. Basic knowledge about the programming language
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. There are many challenges on the way – the family of pyrrolizidine alkaloids constitutes of >600 members of various complexity. And we also need the synthetic route to be practical, to be able to use synthesized
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and climate adaptation. These challenges have a significant impact on our built environment and the actors that operate in this field. Addressing these challenges requires a fundamental change in how
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measurements of key organics, plus culture experiments, to uncover the biochemical pathways and environmental controls on methane formation and oxidation. Your job This work will enhance our understanding
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to prevent it using SAI, affect food production? How would AMOC collapse impact food trade and food security? How can the global food system be made more resilient to AMOC collapse? To do so, you will work
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becomes a real challenge to uniquely extract information on their layer properties in order to understand and improve their performance. A way to “break the nanometric barrier” for structure analysis is to