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at uncovering how the capacity for Darwinian evolution may have first arisen. While parts of this puzzle have been solved, an important open question is the emergence of information transfer (inheritance), one
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PhD position - Modelling the emergence of information transfer in prebiotic self-replicating systems
how the capacity for Darwinian evolution may have first arisen. While parts of this puzzle have been solved, an important open question is the emergence of information transfer (inheritance), one
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the Experimental Rock Deformation Group external link . Your job High-temperature thermal energy storage is playing an increasingly vital role in the transition to a low-carbon future. One of the most promising
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universities and universities of applied sciences and TNO work together with citizens, businesses and local governments to develop sustainable heating solutions for neighbourhoods. The goal of this project is to
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2025 Apply now Join CropXR as PhD candidate! Develop computational models to translate drought & heat stress responses from a model plant species (Arabidopsis thaliana) to crops. Combine plant biology
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satellite observations, climate reanalysis data, and numerical models to better understand how sea ice is transported out of the Arctic and how heat is exchanged between the ocean, ice, and atmosphere. Your
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predictive models and novel measurement methods that improve coating performance for corrosion protection, heat reflection and radiation shielding. You will collaborate closely with our industrial partners
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the many seminars by internal and external speakers as well as journal clubs and group activities. Collaboration with other PhD candidates, postdoctoral researchers and other faculty member will be
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the offshore environment to engaging consumers in the heat transition. Electricity market design is a focal point in MODES. Your daily supervisor and promotor will be Kenneth Bruninx, Laurens de Vries will be
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package within the core research program of CropXR. Our goal is to develop computational methods to translate integrated simulation models of plant responses to stress (drought, heat) from a model plant