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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
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academic purposes. Preferably, you will also have: Experience with, or a strong interest in, nanoscale magnetic imaging techniques, such as Quantum Diamond Microscopy, Quantum Scanning Microscopy, or related
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equipped with various force methods, including a dual trap optical tweezers, scanning probe microscope, and acoustic force spectroscopy, as well as computing facility for molecular modeling, which enable
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-resolution microscopy, to resolve synaptic protein complexes at high resolution in defined synapses in brain tissue. The successful candidate will be a member of the MacGillavry lab that is part of the larger
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, neutralization assays, (primary) tissue culture, PCR, flow cytometry, immunoassays and (fluorescence) microscopy; good communication skills and a proactive attitude; excellent organizational skills and dedication
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relevant related techniques such as microscopy, transcriptomics or metabolomics (highly desirable) A strong interest in cellular agriculture/cultivated meat is essential, although specific prior experience
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imaging to probe microbubble behavior and shell dynamics. The goal is to obtain a full physical understanding of the mechanisms governing the acoustic response of bound microbubbles. You will perform
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phosphopeptide–mineral assemblies under controlled conditions. You will systematically probe interaction-driven assembly behavior. By varying ion type, concentration, and solution conditions, you will quantify how
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brought you to your present focus of intellectual and scholarly interests. Also briefly describe the case study you would like to explore (2 pages max.); your Curriculum Vitae; a scan of your PhD