Search for dissertations about: "Super Resolution Microscopy"
Showing result 1 - 5 of 36 swedish dissertations containing the words Super Resolution Microscopy.
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1. 3D super-resolution microscopy of living cells using reversibly switchable fluorophores
Abstract : Traditional optical microscopy techniques are limited in spatial resolution due to the wave nature of light. This means that neighboring objects separated by a distance smaller than about 200 nm cannot be distinguished. READ MORE
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2. High-resolution Imaging of Cleared and Expanded Kidney Tissue Samples
Abstract : The kidney is one of the most important and complex organs in the humanbody with the task of filtering hundreds of litres of blood daily. It is responsiblefor the salt and acid/base balance in the body, as well as secretinghormones important for red blood cell production and blood pressure regulation. READ MORE
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3. Automating STED microscopy for functional and structural live-cell imaging
Abstract : Optical microscopy imaging methods are today invaluable tools for studies in life sciences as they allow visualization of biological systems, tissues, cells, and sub-cellular compartments from millimetres down to nanometres. The invention and development of nanoscopy in the past 20 years has pushed fluorescence microscopy down to the nanoscale, reaching beyond the natural diffraction limit of light that does not allow focusing of visible light below sizes of around 200 nm, and into the realm of what was previously only thought possible with electron microscopy. READ MORE
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4. Super resolution fluorescence imaging : analyses, simulations and applications
Abstract : Fluorescence methods offer extraordinary sensitivity and specificity, and are extensively used in the life sciences. In recent years, super resolution fluorescence imaging techniques have developed strongly, uniquely combining ~10 nm sub diffraction resolution and specific labeling with high efficiency. READ MORE
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5. Automated super-resolution microscopy for high-throughput imaging
Abstract : Fluorescence microscopes enable the visualization of biological samples with high contrast by labeling specific structures with fluorescent molecules. However, the spatial resolution of widely used microscopy techniques, such as widefield and confocal microscopy, is limited by the size of a focused spot of light, which roughly corresponds to half the wavelength of the illumination. READ MORE