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for three consecutive periods (2014-2018 and 2018-2022 and 2023-2026). ICN2 comprises 20 Research Groups, 7 Technical Development and Support Units and Facilities, and 2 Research Platforms, covering different
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requirements to platform integration, demonstrating Titan Forge is a paradigm-shift in mission development for both early and late development and validation phases. You will work on premises, both at TU Delft
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on the project that is focusing on advanced imaging, active matter physics and computational Biology. The candidate will also access and contribute to state‑of‑the‑art microscopy platforms. A postdoctoral position
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. While in the Hummon research group, this candidate will embark on a program of independent research with the primary goal to develop mass spectrometry methods in proteomics, metabolomics, and imaging
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animals. Our strategy will allow us to compare stress responses and behavioural data between different species and classes of pathogens, leading to important synergies by using standardised methods
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Research Scholarship of Post-Doctoral Research for the scientific area of Chemistry - IST/2025/BL103
protein (FAP) as an emerging target for molecular imaging and/or cancer therapy, this project aims to develop and optimize bioconjugation and radiolabeling methods for computationally designed miniproteins
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, TIRF imaging, optical tweezers (both are lab-build equipment by our team), RNA motility, RNA dynamics, RNA therapeutics, nucleic acid chemistry, cancer mRNA-vaccines, RNA delivery, molecular biology
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World Heritage Site, and surrounded by stunning countryside. Our talented scholars and researchers from around the world are tackling global issues and making a difference to people's lives. We believe
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variability, whichincreasingly disrupts the operation of electrical circuits and reduces the design margin of the circuits (Fig. 1). This is particularly the case for the reading circuits of CMOS imager
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and imaging capabilities, and on applying THz (emission) microscopy to study 2D materials and 2D heterostructures. The microscope will use femtosecond lasers to generate and detect terahertz pulses