Search for dissertations about: "Time-resolved wide angle x-ray scattering"
Showing result 1 - 5 of 7 swedish dissertations containing the words Time-resolved wide angle x-ray scattering.
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1. Conformational Dynamics of Rhodopsins Visualized by Time-resolved Wide Angle X-ray Scattering
Abstract : Rhodopsins are a family of light-sensitive proteins found in the cellular membranes of a wide range of living organisms. These membrane proteins share a common molecular architecture and are able to use light energy to perform a variety of different biological functions. READ MORE
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2. Time Resolved Diffraction Studies of Structural Changes in Sensory Rhodopsin
Abstract : Responding to different light conditions is an essential process for many organisms on earth. Unicellular organisms are no exception to this and mechanisms for controlling cellular movement must often be sensitive to light. READ MORE
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3. X-ray free-electron laser based methods for structural and ultrafast dynamics studies of a photosynthetic reaction centre
Abstract : Life on earth is fuelled by the energy of sunlight, which must first be captured and converted into a chemical energy form useful to the cell. This process is known as photosynthesis and the major pathway of this energy conversion is via photosynthetic reaction centres. READ MORE
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4. Assembly and alignment in cellulose nanomaterial-based composite dispersions and thermally insulating foams
Abstract : Research on nanoparticles extracted from renewable and highly available sources is motivated by both the development of functional nanomaterials and the drive to replace widely used materials based on fossil resources. In particular, cellulose, in the form of cellulose nanomaterials (CNM), has attracted increased attention for the development of sustainable and high performance products, thanks to properties that include high specific mechanical strength, chemical versatility and anisotropic thermal conductivity. READ MORE
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5. Crystallization on the Mesoscale : Self-Assembly of Iron Oxide Nanocubes into Mesocrystals
Abstract : Self-assembly of nanoparticles is a promising route to form complex, nanostructured materials with functional properties. Nanoparticle assemblies characterized by a crystallographic alignment of the nanoparticles on the atomic scale, i.e. mesocrystals, are commonly found in nature with outstanding functional and mechanical properties. READ MORE