Global ETD Search

21	Synthesis and Characterization of Multi-component Metal Oxides based on Ru-Co-Mo as Oxygen Evolving Electrocatalysts Tejbo, Jonas January 2023 (has links) Finding materials based on non-rare earth metals is vital for the global transition to a more sustainable economy. Discovering useful properties in common metal oxides is a promising avenue for new materials. In this work we have investigated the properties of Ru(x)CoMo(1-x) to evaluate the feasibility of its use as an electrocatalyst for the oxygen evolution reaction (OER). Herein, the plasma spray deposition on FTO and glass is reported as a method for production of low Ru content-CoMo oxide. The material showed a good performance in an alkaline electrolyte for OER, with no loss on stability and overpotentials to achieve a current density of 10 mA cm-2 of 528, 483, 455, 439 mV for 0, 10, 20, and 30 At% of Ru, respectively. The final material is shown to be composed entirely of Co and Mo oxides, as well as Ru which is present in the crystal structure of these metal oxides as observed using optical characterization techniques, XRD, Raman and SEM. With the aim of maximising performance and decreasing the amount of Ru used, we find a Ru content of 20 At% is most optimal for OER in alkaline. We find therefore Ru(0.2)(CoMo)(0.8) to be an effective electrocatalyst for OER in alkaline, while examples from literature outperforms it in other applications, it is still a good basis for further work and development. catalyst metal-oxide electrolysis Materials Chemistry Materialkemi
22	Reactions of Li-metal electrodes in contact with electrolytes, characterized by surface analysis techniques Adalsteinsson, Alfred January 2020 (has links) No description available. Materials Chemistry Materialkemi Chemical Sciences Kemi
23	Synthesis and Characterization of 2D Nanocrystals and Thin Films of Transition Metal Carbides (MXenes) Halim, Joseph January 2014 (has links) Two dimensional (2D) materials have received growing interest because of their unique properties compared to their bulk counterparts. Graphene is the archetype 2D solid, but other materials beyond graphene, such as MoS2 and BN have become potential candidates for several applications. Recently, a new family of 2D materials of early transition metal carbides and carbonitrides (Ti2CTx, Ti3C2Tx, Ti3CNTx, Ta4C3Tx, and more), labelled MXenes, has been discovered, where T stands for the surface-terminating groups. Before the present work, MXenes had only been synthesized in the form of exfoliated and delaminated powders, which is not suitable for electronic applications. In this thesis, I demonstrate the synthesis of MXenes as epitaxial thin films, a more suitable form for electronic and photonic applications. Results show that 2D epitaxial Ti3C2Tx films - produced by HF and NH4HF2 etching of magnetron sputter-grown Ti3AlC2 - exhibit metallic conductive behaviour down to 100 K and are 90% transparent to light in the visible-infrared range. The results from this work may open the door for MXenes as potential candidates for transparent conductive electrodes as well as in electronic, photonic and sensing applications. MXenes have been shown to intercalate cations and molecules between their layers that in turn can alter the surface termination groups. There is therefore a need to study the surface chemistries of synthetized MXenes to be able to study the effect of intercalation as well as altering the surface termination groups on the electronic structure and chemical states of the elements present in MXene layers. X-ray Photoelectron Spectroscopy (XPS) in-depth characterization was used to investigate surface chemistries of Ti3C2Tx and Ti2CTx. This thesis includes the discussion of the effect of Ar+ sputtering and the number of layers on the surface chemistry of MXenes. This study serves as a baseline for chemical modification and tailoring of the surface chemistry groups to potential uses and applications. New MXene phases, Nb2CTx and V2CTx, are shown in this thesis to be produced from HF chemical etching of Nb2AlC and V2AlC powders. Characterization of the produced MXenes was carried out using Scanning Electron Microscopy (SEM), X-Ray Diffraction (XRD), Transmission Electron Microscope (TEM) and XPS. Nb2CTx and V2CTx showed promising performance as electrodes for Li-ion batteries. In this thesis, electrochemical etching was used in an attempt to produce 2D metal carbides (MXene) from their ternary metal carbides, Ti3SiC2, Ti3AlC2 and Ti2AlC MAX phases. MAX phases in the form of highly dense bulk produced by Hot Isostatic Press. Several etching solutions were used such as HF, NaCl and HCl. Unlike the HF chemical etching of MAX phases, which results in MXenes, the electrochemical etching resulted in Carbide Derived Carbon (CDC). Here, I show the characterization of the produced CDC using several techniques such as XRD, TEM, Raman spectroscopy, and XPS. Electrochemical characterization was performed in the form of cyclic voltammetry, which sheds light on the etching mechanism. / <p>The series name <em>Linköping Studies in Science and Technology Licentiate Thesis</em> in this publication is incorrect. Correct name is <em>Linköping Studies in Science and Technology. Thesis</em>.</p> Materials Chemistry Materialkemi Inorganic Chemistry Oorganisk kemi
24	Utvärdering av nötningsmekanismer för verktyg till jordbearbetning : För ett hållbart jordbruk i framtiden Hallhagen, Martin January 2023 (has links) In the agricultural industry, cultivator tines are used for stubble cultivation and seedbed preparation. They are exposed to rapidly developing abrasive wear, which becomes a major economic problem. The occurring wear in the tines is heavily dependent on the characteristics of the soil which it passes through. In this master thesis the goal is to produce a method which, in a laboratory environment, can reproduce the circumstances which real cultivator tines are exposed to in the field. The method will enable analysis and evaluation of the initial wear mechanisms causing the wear. In order to simulate the tillage, a pendulum setup was constructed. With this, a series of repeated impact tests were performed into a soil sample. Throughout the tests, the “cultivator tine” samples were made of aluminium. This material choice would enable an accelerated wear rate, following its low hardness. All tests were performed in the same soil, with moisture content being the only varying parameter;~0% and 18% respectively. The samples which had passed through soil with higher moisture showed reduced wear compared to those which had passed through dry soil. The pendulum setup contributed to the tests being executed in a controlled and reliable manner. Hence, it is determined to be suitable for further use in any future project work related to the subject. jordbruk tribologi metodutveckling nötning Materials Chemistry Materialkemi
25	Carbon nanomaterials as electrical conductors in electrodes Shukr, Delan January 2021 (has links) In this project, different molecules have been investigated with the purpose of creating anohmic contact between metals and carbon nano materials. In particular, we considered simplemolecules connecting a graphene layer and a copper-slab. In order to determine the capability of such systems, the electronic structure was computedusing Density Functional Theory (DFT). Structural relaxation was performed in order to findcandidates where the metal and the graphene binds chemically with the hypothesis that thehybridization of the states will induce more states at the Fermi level. Six different molecularchains were tested and three of them were found to chemisorb to the graphene sheet and thecopper surface simultaneously. The electronic properties for these systems were then furtherinvestigated using the density of states (DOS). An overlap density of states (ODOS) wasdefined in order to evaluate the respective contribution of the graphene, metal and molecule. From the DOS analysis, we report that these systems did not form ohmic contacts as the resultshows too few states close to the Fermi level. The most interesting case was using a hexanolchain which had some partially overlapping states seen from the ODOS of the graphenemoleculeand graphene-Cu at the Fermi level. However, these were only small contributions.Further research is crucial in order to find a more suitable molecular chain between thegraphene and the copper for an ohmic contact. carbon nanomaterials graphene Materials Chemistry Materialkemi
26	Materialtester i ammoniak - för motorapplikation Kron, Anna-Karin January 2024 (has links) Combustion engines today are primarily powered by fossil fuels, resulting in emissions of pollutants that pose significant environmental challenges. Therefore, transitioning to alternative fuels that reduce these emissions is crucial. One promising alternative fuel is ammonia, which, in addition to being carbon-free, benefits from an already developed infrastructure. However, switching to new fuels creates a different chemical environment inside the engine, and the impact on engine materials has not been well studied. Thus, in this master’s thesis, nine different engine materials (copper, brass, aluminum, cast iron, ball bearing steel, stainless steel, titanium, titanium nitride, and diamond-like carbon (DLC)) were studied before and after ammonia exposure, as well as after a tribological test, to increase the knowledge in this field. The materials were analyzed using SEM and EDS before and after exposure, and additional techniques, LOM and XPS, were also used after the exposure. All materials showed some degree of reaction in the ammonia solution. Copper, brass, and aluminum were altered to a depth of many micrometers, and the surface layer broke under tribological contact. Cast iron also reacted, but to a lesser extent, as parts of its surface remained unchanged. Ball bearing steel, stainless steel and titanium reacted mildly, primarily superficial oxidation of the surfaces. Titanium nitride and DLC were almost unaffected by ammonia. This suggests that titanium nitride, DLC, ball bearing steel, stainless steel, and titanium are more suitable for use in an ammonia driven combustion engine than copper, brass, aluminum, and cast iron. tribologi ammoniak korrosion Materials Chemistry Materialkemi
27	Microstructure and Magnetic Properties for Mn-Al based Permanent Magnet Materials Nyberg, Axel January 2017 (has links) Manganese-Aluminium is an alloy with attractive ferromagnetic propertieswhenL10-structured ( -phase). If sucient permanent magnetic propertiescan be achieved at a low cost, it has potential to be a new permanentmagnet material on the market. In this thesis, drop synthesized ingots ofMn55Al45C2 were crushed and examined as solid pieces and as powders.The goal was to better understand how the material behaves magneticallyafter synthesis in relation to its chemical composition and cooling rate. Representativecross-sections of solid ingot pieces were created by mounting thepieces in polyfast followed by polishing. The surfaces were studied withScanning Electron Microscopy and Energy-dispersive X-ray spectroscopy tomap the chemical composition and then by Magnetic Force Microscopy andMagneto-optic Kerr eect to see how the chemical composition inuencesthe magnetic properties. It was found that areas richer in aluminium (Al),compared with the rest of the surface, behaved non-magnetically. The resultsfrom X-ray diraction on the powders suggests that the Al-rich areasconsists of the non-magnetic- and 2-phases.The powder that was extracted from the top of one of the drop synthesizedingots was nearly pure -phase but did not have an impressive magnetization.A complementary magnetic measurement was done on a solid piece from thetop part. This piece was found to reach a higher magnetization at a lowereld. The result indicates that crushing the material, even just by hand witha mortar and pestle, greatly reduces the magnetization. Other Materials Engineering Annan materialteknik Materials Chemistry Materialkemi
28	Transparent conductive oxides deposited by magnetron sputtering: synthesis and characterization / Transparanta ledande oxider deponerade via magnetronsputtering: syntes och karaktärisering Axelsson, Mathias January 2019 (has links) The thesis has dealt with transparent conducting oxide (TCO) materials, with a focus on Al:ZnO and with studies on Sn:In2O3 and ZnO. TCOs are a material group that is used for its properties of being conductive and at the same time transparent. In solar cells, a top layer of TCO is often used to allow light to transmit into the cell and then conduct the resulting current. A set of growth parameters was chosen and optimized through a literature study and experiments. The depositied thin films were characterized by optical and electrical characterization methods. Rf-magnetron-sputtering was used as the deposition method, where the influence of O2, argon and substrate temperature were the parameters to be studied. As a part of the characterization a model for spectroscopic ellipsometry on Al:ZnO was made, enabling faster measurement of transport properties. The main parameter affecting the TCO properties was found to be oxygen flow and the optimum flow value for each material has been determined. Substrate heating did not show any significant improvement on the resistivity of Al:ZnO with a minimum value of ~5.010-4 Ωcm while no heating resulted in a value of ~6.010-4 Ωcm. These values are comparable to the state-of-the-art from the literature. As a demonstration of application, the developed AZO and ZnO were applied to CIGS solar cells and these were compared to a reference. The newly developed AZO and ZnO was comparable to the reference but a lower mean fill factor indicates that improvements can be made. TCO AZO solar cell magnetron sputtering Materials Chemistry Materialkemi
29	Corrosion properties of aluminium alloys and surface treated alloys in tap water Gustafsson, Sofia January 2011 (has links) The aim of this thesis is to obtain a basic knowledge of the factors that affect corrosion of aluminium in tap water for different kinds of applications like water pipes for tap water, solar systems, HVAC&R-applications (like fan coil units on chillers) and heat sinks for electronic or industrial applications. Open systems are used in some applications and closed systems in others. There is a clear difference in the corrosion behaviour of these two systems. The main reasons for this difference are that the content of oxygen differs between the two systems and also that inhibitors can be used in closed systems to hinder corrosion. In this thesis focus will be on corrosion in open systems. The corrosion properties in tap water for different alloys of aluminium and different surface treatments have been examined. The influences on corrosion of the oxygen content in water and the iron content in aluminium alloys have been investigated. The corrosion properties of an aluminium alloy in deionised water have also been examined. corrosion aluminium aluminum tap water water Materials chemistry Materialkemi
30	Catalyst loaded porous membranes for environmental applications : Smart Membranes Ren, Bin January 2007 (has links) <p>This project involves the fabrication and testing of microporous, polymer membranes designed to remove minute amounts of toxic air pollutants such as formaldehyde from air streams. The hypothesis to be tested is that active, the silver contained within the porous polymer membranes results in high formaldehyde retention.</p><p>Monolayers consist of different sizes of sPS particles are assembled first on the silicon wafers by spin coating method and convective assembly method, respectively. Then each kind of monolayer with one dimension of sPS particles is deposited with a nanometer scaled silver thin film with a bench top metal evaporator. The porous membranes are produced by assembly of close-packed colloidal crystals of silver capped polystyrene template particles and subsequent infiltration with polyurethane prepolymer. The prepolymer is cured by UV exposure. The sPS particles are removed from the particle polymer membrane by treatment with organic solvents resulting in the formation of inverse opal structures. Silver does not dissolve in the organic solvents and cannot leave the pores due to the small size of connecting holes in an inverse opal. All the monolayers, cylindrical colloidal crystals and microcapillaries after infiltration of polyurethane had been characterized by optical microscope, and the porous membranes had been characterized by SEM.</p><p>The application of porous membranes with silver caps is to absorb formaldehyde in the air, while in fact the silver caps are oxidized and become Ag2O, which will initiate a gas-phase/solid reaction with formaldehyde. In the future, TiO2 will be applied together with Ag2O, since TiO2 is another good absorbent for formaldehyde</p> polystyrene monolayer silver caps microcapillary porous membrane Materials chemistry Materialkemi

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