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Your Job: As part of your activities, you will investigate the wetting behavior of alcohols/lactones and other oxygen-containing LOHC systems on catalyst and membrane surfaces and the effects
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Water bounces off lotus leaves but spreads and fully wets the trap rim of carnivorous pitcher plants, turning it into a deadly water slide for insects. This fully funded 4-year PhD project
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the position, the required skillset includes: Strong background in electromagnetic and optical modeling using tools including Ansys, Comsol, Matlab, and other methods. Expertise in wet chemical synthesis
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collaborative opportunities globally, as well as within Luxembourg. The doctoral candidate will perform wet lab experiments as well as computational analysis to uncover biophysical principles that regulate host
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composition and surface texture to wetting, and (4) investigate how plants can make surfaces with contrasting wetting properties within the same organ. The student will employ diverse techniques such as contact
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include well-equipped wet laboratories, with conventional labs for non-radioactive experiments, shielded labs for radiochemistry equipped with dedicated hoods for work with α-emitters or high-energy γ-rays
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the entire spectrum of wet lab experimental work with the “state of the art” technics DNA, RNA, Protein work: isolation and analysis with PCR, qPCR, Western blot Immunofluorescence, microscopy, histology Cell
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groundbreaking discoveries and be part of an innovative team! The project involves both wet lab experiments and a significant focus on image analysis Where to apply E-mail simone.dusseljee@radboudumc.nl
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susceptibility to water ingress can lead to issues such as surface degradation, internal cracking, frost damage, and biological colonisation. Prolonged exposure to moisture makes these materials particularly
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the interview. The ideal candidate profile: Must-have: MSc or equivalent degree in biochemistry or structural biology or related fields Practical experience working in the wet lab, mainly focusing on translation