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streams, and PHA-X, a composite obtained from PHA-rich biomass. You will further develop, test and optimize the PHA-X material, you will, in close collaboration with two industrial partners, contribute
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experiments on collected forest soils by studying genetic (PCR) analyses, phospholipid fatty acids (PLFA) analyses, microbial biomass, soil carbon, respiration and enzymatic activities. The project is embedded
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addition to converting biomass or CO2 into sustainable functional chemicals and materials, our projects also include the green modification of natural (bio)polymers to better match the required properties for specific
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materials such as oil or gas with circular raw materials, such as green hydrogen combined with carbon from waste, biomass, or carbon dioxide. Towards a sustainable energy transition Using advanced methods, De
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) analyses, microbial biomass, soil carbon, respiration and enzymatic activities. The project is embedded in a larger nitrogen deposition project in which spatial and temporal patterns in nitrogen deposition
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production of high-value chemicals, such as fuels and organic molecules, from “waste” substrates, for example, carbon dioxide and biomass. The main aim is to understand, develop, and optimize electrochemical
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functioning and holds the largest biomass and biodiversity reservoirs on our planet. It also remains severely data deficient. Key ecological processes, such as the interactions between deep-sea top predators
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changes. An important focus of our research is how these abiotic-biotic interactions create value for society, for example, investigating sustainable sources of marine biomass for food, the impacts
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The Sustainable Process Technology (SPT) group is part of the Faculty of Science and Technology, TNW, at University of Twente. We develop experimental and modelling research in the areas of biomass conversion