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design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By exploring
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a good ability to work towards set goals and you work focused and structured to achieve them. In this, you have an ability to focus, even during periods of high workload. You have good communication
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computational models, very good study results. We place great emphasis on personal qualities such as creativity, perseverance, the ability to work independently, and a structured approach to problem-solving. You
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. This requires commitment, drive and the ability to structure your work to successfully complete the doctoral thesis. To contribute to a positive work environment and further both the department’s activities and
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social network analysis methods that incorporate both network structure and the personal attributes of nodes, while minimising bias against individuals or groups. The project will be developed with
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structure, with the support of competent and friendly colleagues in an international environment? Are you looking for an employer that invests in sustainable employeeship and offers safe, favourable working
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about the PhD programme is available at: https://www.soclaw.lu.se/sites/soclaw.lu.se/files/2021-06/ASP_rättssociologi_forskarutbildning_20201126.pdf Qualifications Requirements: A master’s degree in
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14 DCs in cutting-edge methods, theory, and transferable skills. More information may be found on the ENERPOL home page at https://cordis.europa.eu/project/id/101226229 . The part of the project
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materials design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By
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on CIGS, may degrade or loose efficiency. This includes investigating how the materials’ composition, their physical structure, interfaces between layers and interactions with the environment affect their