Search for dissertations about: "Supported Lipid Bilayer"
Showing result 11 - 15 of 49 swedish dissertations containing the words Supported Lipid Bilayer.
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11. Formation of Mesoporous Materials and their use as Lipid Bilayer Supports
Abstract : Mesoporous materials have acquired great scientific interest in various applications; something that is largely due to that their properties, such as pore size, pore orientation, material composition and surface chemistry, can be controlled to a large extent. One idea, which has been investigated in this thesis, is to use mesoporous materials as supports for lipid bilayers and by doing so fabricate devices that mimic the cell wall and at the same time has sufficient mechanical robustness for practical use. READ MORE
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12. The self-spreading double bilayer/Advances in lipid membrane nanotechnology
Abstract : In my thesis I describe the generation, characterization and uses of self-spreading double bilayers. This new type of solid-supported model membrane combines features and properties of the 2D lipid bilayer membrane, and the 3D phospholiposome. The double bilayer membrane, i.e. READ MORE
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13. Properties and Applications of Shear-Driven Lipid Bilayers
Abstract : A supported lipid bilayer (SLB) is a lipid bilayer formed on a solid substrate. This system is currently one of the most common model systems used to imitate the properties of the cell membrane that surrounds human cells. READ MORE
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14. In vitro characterization of nanodrugs at model lipid membranes
Abstract : The use of nano-sized drug carriers to improve the efficiency of drug delivery has become well established during the past decades. New nanoparticle (NP) formulations for the administration of biopharmaceuticals (e.g. proteins and peptides) emerge at an increasing rate and the need for methods to evaluate their properties is expanding. READ MORE
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15. Waveguide Evanescent-Field Microscopy for Label-Free Monitoring of Biological Nanoparticles: Fabrication, Characterization and Application
Abstract : The recent development of microscopy methods, biological assays and bioanalytical sensors has significantly advanced the understanding of biological systems. Surface-based bioanalytical sensors have in recent years gained increased interest thanks to improvements in sensitivity and simplicity to use. READ MORE