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thereafter, and no later than 31 December 2025. The project As a PhD candidate, you will explore the fundamental photoinduced processes in next-generation low-dimensional materials—including fully organic
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two-dimensional (2D) materials such as graphene, a-RuCl3, and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It
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to be cost competitive with other technologies, long lifetime of >5 years operation under high current density is desired. Operation conditions such as temperature, gas composition, current density and
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where variable renewable energy sources are involved. Emerging digital and cyber-physical systems technologies are an integral component of grid interactive efficient buildings. Through advanced control
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English to accommodate the international composition of students and staff. The Centre for Industrial Mechanics, situated within the Alsion building on SDU's picturesque Sønderborg campus, acts as a hub for
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experiments, and parametric investigations. The modelling component will be based, as much as possible, on semi-analytical thermo-mechanical formulations. This is to facilitate calculation accuracy, numerical
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with an impact factor above 10. You must have shown a high degree of publications within the last three years. You are expected to have shown the capability to manage several complicated research
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an essential component of the project and will contribute to the interdisciplinary nature of your PhD. We expect candidates to have demonstrated experience or strong interest in the following areas
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containing all materials to be given consideration. To apply, please open the link "Apply now", fill out the online application form, and attach all your materials in English in one PDF file. The file must
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sunlight, air and water. Electrodes are a central component of the novel bioelectrochemical platforms for energy harvesting and microbial electrosynthesis. Optimal design of the 3D geometry and material