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decomposition, transport and stabilization. The successful candidate will be responsible for field observations such as plot-scale in-situ CH4 and CO2 flux measurements in Canada and Finland, and laboratory
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application of magnetically enhanced electrocatalysis for water splitting and CO2 reduction (see e.g. https://doi.org/10.1038/s41560-019-0404-4). Your main tasks may include Application of new materials and
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in forests and/or peatlands, especially in the context of renaturation and sustainable use Quantification of plant physiological processes in carbon and gas exchange, e.g. by measuring CO2 and CH4
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areas as well as equip you with core data analysis and professional skills that are necessary for bioscience research and related non-academic careers. https://www.yorkshirebiosciencedtp.ac.uk Project
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carbon polymers. This project will study rice plants that have been genetically engineered to enhance CO2 uptake and fixation in the leaves and to produce stable carbon polymers in the roots. The study
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well as in the breakdown of greenhouse gases including CO2 and CH4 . The PhD project is part of the Horizon Europe Marie Skłodowska-Curie Action (MSCA) doctoral network (DN) ELEGANCE (machinE LEarning
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which plant communities respond to environmental changes such as increased nitrogen deposition, increased atmospheric CO2, decreased biodiversity, altered precipitation patterns, and increased
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Brandenburgische Technische Universität Cottbus | Cottbus, Brandenburg | Germany | about 2 months ago
Systems Cottbus – chesco”. There is also close cooperation with the two Cottbus-based DLR Institutes for Electrified Aircraft Propulsion and CO2-Reduced Industrial Processes. Furthermore, BTU has been a
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production and recycling of materials; heterogenous catalysts for CO2 conversion). We are particularly interested in candidates emphasizing advanced materials characterization or combined synthesis
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), they have proven the economic viability of introducing recyclability in the wind energy value chain, while reducing CO2 emissions by 28%. While the viability of full-scale wind turbine blades made with