Search for dissertations about: "Carbon Dioxide chemistry"
Showing result 1 - 5 of 94 swedish dissertations containing the words Carbon Dioxide chemistry.
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1. Water film-mediated mineralogical transformations and photocatalytic reactions
Abstract : Mineral particles capture water vapor in the atmosphere in the form of water films that are only few monolayers thick. Water films form nanoscale hydration environments that mediate a wide range of important reactions in nature and technology. READ MORE
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2. Partial methane oxidation from electronic structure calculations
Abstract : Investigating catalytic reactions with computational methods is a powerful approach to understand fundamental aspects of catalytic reactions and find ways to guide catalytic design. Partial methane oxidation is one example of a reaction with intriguing challenges, where a detailed atomistic approach may help to unravel the bottlenecks of this, as of yet, inefficient reaction. READ MORE
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3. Algorithms and Interaction Potentials: phase density, surface tension and carbon dioxide
Abstract : This thesis is an amalgamation of articles (Papers I–V) by the author. We present a perturbation algorithm to calculate the phase density, and thus the partition function including its temperature dependence. READ MORE
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4. Surface and Bulk Reactivity of Iron Oxyhydroxides : A Molecular Perspective
Abstract : Iron oxyhydroxide (FeOOH) mineral plays an important role in a variety of atmospheric, terrestrial and technological settings. Molecular resolution of reactions involving these minerals is thereby required to develop a fundamental understanding of their contributions in processes taking place in the atmosphere, Earth’s upper crust as well as the hydrosphere. READ MORE
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5. Mesoporous Titania for High Rate Electrochemical Energy Storage
Abstract : Mesoporous titanium oxides are increasingly attracting interest as potential candidates for fast electrochemical energy storage. In this thesis, mesoporous titania of different polymorphs have been evaluated in relation to their ability to reversibly store Li+ ions inside their structure. READ MORE