Global ETD Search

281	Improving Doping and Minority Carrier Lifetime of CdTe/CdS Solar Cells by in-situ Control of CdTe Stoichiometry Evani, Vamsi Krishna 07 April 2017 (has links) Cadmium Telluride (CdTe) is a leading thin film photovoltaic (PV) material due to its near ideal bandgap of 1.45 eV and its high optical absorption coefficient. Advancements in efficiencies of CdTe/CdS solar cells over the past few decades have come from improving the short circuit current (JSC) and Fill Factor (FF) but the Open Circuit Voltage (VOC) has been stagnant. Further improvements in efficiencies should come from increased VOC’s. VOC’s can be improved by increasing the acceptor concentration and minority carrier lifetime. Both these parameters can be controlled by manipulating the native defect concentration in CdTe which can be achieved by varying CdTe stoichiometry. In this study, a deposition system called Elemental Vapor Transport was used to vary the CdTe stoichiometry with an intent to change the native defect concentration and therefore pave way to increase acceptor concentration and lifetimes. Elemental cadmium and tellurium were heated in dedicated zones and their vapors were transported to the substrate using a carrier gas. By varying the temperatures and flowrates of the carrier gas through the zones, the gas phase Cd/Te ratio was varied to deposit Cd-rich, Te-rich and stoichiometric films. Structural properties were investigated using Scanning Electron Microscopy (SEM), X-Ray Diffraction (XRD), and Transmission Electron Microscopy (EDS). Electrical characterization of completed devices was carried out by Current-Voltage (J-V), Capacitance-Voltage (C-V), and Spectral Response (SR) and Deep Level Transient Spectroscopy (DLTS) measurements. Cd-rich films showed smaller grain sizes and lesser degree of preferential orientation. Te-rich films showed increased acceptor concentration and carrier lifetimes and solar cells fabricated using these films showed higher VOC’s compared to Cd-rich and stoichiometric films .Higher degree of CdTe-CdS mixing was observed at the interface for films deposited at increased substrate temperatures. Photovoltaics Intrinsic Doping Open Circuit Voltage Elemental Vapor Transport Engineering
282	Drömmen om att bli någon : En kvalitativ intervjustudie om doping Fontana, Sabina, Gustafsson, Marie January 2018 (has links) Syftet med studien var att undersöka individers erfarenheter av att använda doping. Studien är kvalitativ och utgörs av narrativa intervjuer med två före detta dopinganvändare. Huvudresultaten visade att deltagarna började med dopingpreparat bland annat på grund av låg självkänsla och en vilja att ta revansch. Resultaten visade även att deltagarna upplevt både för- och nackdelar med dopingbruket. Båda intervjudeltagarna uppgav att bekräftelse och framgångar varit dopingens fördelar samt att bieffekter, blandmissbruk och skadade relationer varit de negativa konsekvenserna av bruket. Resultaten visade även att deltagarnas avslutade bruk grundat sig i fysiska bieffekter och i ett av fallen spelade även socialt stöd en avgörande roll. Den viktigaste slutsatsen i studien är att sociala faktorer har en betydande roll för individers beteende vid dopingbruk. Doping narrativ intervju vändpunkter sociala band Social Sciences Samhällsvetenskap
283	Graphol and vanadia-link zin doped lithium manganese silicate nanoarchitectonic platforms for supercapatteries Ndipingwi, Miranda Mengwi January 2020 (has links) Doctor Educationis / Energy storage technologies are rapidly being developed due to the increased awareness of global warming and growing reliance of society on renewable energy sources. Among various electrochemical energy storage technologies, high power supercapacitors and lithium ion batteries with excellent energy density stand out in terms of their flexibility and scalability. However, supercapacitors are handicapped by low energy density and batteries lag behind in power. Supercapatteries have emerged as hybrid devices which synergize the merits of supercapacitors and batteries with the likelihood of becoming the ultimate power sources for multi-function electronic equipment and electric/hybrid vehicles in the future. But the need for new and advanced electrodes is key to enhancing the performance of supercapatteries. Leading edge technologies in material design such as nanoarchitectonics become very relevant in this regard. This work involves the preparation of vanadium pentoxide (V2O5), pristine and zinc doped lithium manganese silicate (Li2MnSiO4) nanoarchitectures as well as their composites with hydroxylated graphene (G-ol) and carbon nanotubes (CNT). / 2023-12-02 Supercapatteries Composite nanoarchitectures Lithium manganese silicate Zinc doping Mechanochemical reactions
284	En hjälpande hand eller huvudet först? Dopingöverträdelser som grund föravsked med bakgrund mot teorin kring idrottens autonomi och rättsliga särart. / A hand up or a boot out? Anti-doping rule violations as legal grounds fordismissal in relation to the theory of sporting autonomy and self-governance. Vanberg, William January 2020 (has links) No description available. Arbetsrätt idrottsjuridik idrott avsked doping dopning dopingöverträdelser Law Juridik
285	Facile Nitrogen-Doping of Screen-Printed Carbon Electrodes for Detection of Hydrogen Peroxide Nkyaagye, Emmanuel 01 December 2021 (has links) Screen-printed carbon electrodes (SPCEs) have garnered much attention as sensors due to their simplicity and relatively low cost. However, to impart necessary selectivity and sensitivity for specific applications, modification of the SPCE surface, which can involve time-consuming procedures or costly equipment/materials, is typically required. Here, a simple nitrogen-doping process based on NH4OH was used to modify SPCEs prepared from commercially available ink for electrochemical detection of H2O2, a common target for biosensing strategies and indicator of cell stress. XPS studies showed that NH4OH treatment of SPCEs led to a nearly 5-fold increase in surface nitrogen content (from 0.28% to 1.34%). Compared to SPCEs, nitrogen-doped SPCEs (N-SPCEs) demonstrated enhanced current and lower onset potentials for H2O2 reduction. Amperometric detection of H2O2 at an applied potential of -0.4 V (vs. Ag/AgCl) using N-SPCEs also exhibited a wider linear range, lower detection limit, and higher sensitivity than SPCEs. Nitrogen Doping Electrocatalysis Screen printed electrodes Hydrogen Peroxide Analytical Chemistry
286	Nitrogen-Doped Carbon Fiber Ultramicroelectrodes as Electrochemical Sensors for Detection of Hydrogen Peroxide Wornyo, Eric 01 August 2021 (has links) Carbon fiber ultramicroelectrodes (CF-UMEs) are commonly used as electrochemical probes and sensors due to their small size, fast response, and high signal-to-noise ratio. Surface modification strategies are often employed on CF-UMEs to improve their selectivity and sensitivity for desired applications. However, many modification methods are cumbersome and require expensive equipment. In this study, a simple approach known as soft nitriding is used to prepare nitrogen-doped CF-UMEs (N-CF-UMEs). Nitrogen groups introduced via soft nitriding act as electrocatalytic sites for the breakage of O-O bonds during the reduction of peroxides like H2O2, a common target of biosensing strategies. Voltammetric studies confirm that, compared to CF-UMEs, N-CF-UMEs possess enhanced electrocatalytic activity towards H2O2 reduction as evidenced by an increase in current and positive shift in onset potential for the reaction. N-CF-UMEs also proved capable for amperometric detection of H2O2, exhibiting good linear response from 0.1 to 5.6 mM at -0.4 V vs. Ag/AgCl. Ultramicroelectrode Nitrogen doping Carbon fiber Electrochemical Sensing Analytical Chemistry
287	Silicon nanowires by metal-assisted chemical etching and its incorporation into hybrid solar cells Khanyile, Sfiso Zwelisha January 2021 (has links) Philosophiae Doctor - PhD / The rapid increase in global energy demand in recent decades coupled with the adverse environmental impact of conventional fuels has led to a high demand for alternative energy sources that are sustainable and efficient. Renewable solar energy technologies have received huge attention in recent decades with the aim of producing highly efficient, safe, flexible and robust solar cells to withstand harsh weather conditions. c-Si has been the material of choice in the development of conventional inorganic solar cells owing to it superior properties, abundance and higher efficiencies. However, the associated high costs of Si processing for solar cells have led to a gravitation towards alternative organic solar cells which are cheaper and easy to process even though they suffer from stability and durability challenges. In this work, combination of both inorganic and organic materials to form hybrid solar cells is one of the approaches adopted in order to address the challenges faced by solar cell development. Solar cells Silicon nanowires Doping Polymer Hybrid solar cells
288	Proximity Mechanisms in Graphene: Insights from Density Functional Theory Alattas, Maha H. 27 November 2018 (has links) One of the challenges in graphene fabrication is the production of large scale, high quality sheets. To study a possible approach to achieve quasi-freestanding graphene on a substrate by the intercalation of alkali metal atoms, Cs intercalation between graphene and Ni(111) is investigated. It is known that direct contact between graphene and Ni(111) perturbs the Dirac states. Cs intercalation restores the linear dispersion characteristic of Dirac fermions, which agrees with experiments, but the Dirac cone is shifted to lower energy, i.e., the graphene sheet is n-doped. Cs decouples the graphene sheet, while the spin polarization of Ni(111) does not extend through the intercalated atoms to the graphene sheet, for which we find virtually spin-degeneracy. In order to employ graphene in electronic applications, one requires a finite band gap. We engineer a band gap in metallic bilayer graphene by substitutional B and/or N doping. Specifically, the introduction of B-N pairs into bilayer graphene can be used to create a band gap that is stable against thermal fluctuations at room temperature. Introduction of B-N pairs into B and/or N doped bilayer graphene likewise hardly modifies the band dispersions, however, the size of the band gap is effectively tuned. We also study the influence of terrace edges on the electronic properties of graphene, considering bare edges and H, F, Cl, NH2 terminations. Periodic structural reconstruction is observed for the Cl and NH2 edge terminations due to interaction between the terminating atoms/groups. We observe that Cl edge termination p-dopes the terraces, while NH2 edge termination results in n-doping. Graphene Doping Intercalation 2D Graphene Nanoribbons Electronic Band Structure
289	Development of a method for the screening of sports doping compounds using multidimensional liquid chromatography and time of flight mass spectrometry Walsh, Robert James 24 July 2018 (has links) Athletes have often resorted to a variety of methods to gain an edge in sporting competitions. One such method is through doping, the use of compounds or methods to produce a theoretically enhancing biological effect. In order to combat doping, many governing sports bodies have prohibited specific compounds or methods and installed programs to test for these compounds in athletes. However, due to the large number of banned substances and the varying chemistries of those compounds, it can be challenging and time consuming to determine the presence of those compounds in an athlete’s sample. Therefore, there is a necessity to develop a quick and sensitive method that can precisely and accurately screen for banned substances. This research was an attempt to develop such a method. This was accomplished using multidimensional liquid chromatography with time of flight mass spectrometry. While none of the methods tested here were useful for screening all 79 compounds tested in a single injection, a multi-method approach was evaluated in lieu of a multi-residues single method process The analytical run time was less than 10 minutes for each method. Further studies were performed to determine the limit of detection, linearity, lifetime, robustness and the optimal solid phase extraction method. Analytical chemistry Chromatography Doping Spectrometry Sports Time-of-flight
290	Korupce a další trestná činnost ve sportu / Corruption and other criminal activities in sport Hnaníček, Jakub January 2021 (has links) thesis title: Corruption and other criminal activities in sport The thesis deals with criminal activities in the field of sport. It focuses mainly on corruption in sport and examines it from the perspective of substantive criminal law. It describes the regulation of bribery offences contained in the legal system of the Czech Republic, the legal regulation of corruption in sport in six foreign European countries and international regulation. It deals with the concept of match fixing, which it defines and discusses its forms and occurrence in five selected sports sectors. It also discusses the issue of doping in sport, which is analysed from the perspective of international and Czech national regulations. Key words: criminal law, corruption, sport, match fixing, doping

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