3 resultados para Andrewes, Lancelot, 1555-1626.

em ArchiMeD - Elektronische Publikationen der Universität Mainz - Alemanha


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Die vorliegende Studie ist eine internationale vergleichende Journalistenbefragung über ein politisch-historisches Ereignis, das in allen untersuchten Ländern vorkommen. Untersucht werden Journalisten aus der Bundesrepublik Deutschland, Taiwan und Südkorea, die in den politischen oder relevanten Ressorts der bedeutenden Medien der jeweiligen Länder tätig sind. Die Themen der Befragung behandeln die Teilung und Wiedervereinigungsprobleme sowie die politisch-ideologischen Hintergründe der Teilung in der Bundesrepublik Deutschland, China und Korea. Obwohl alle drei Länder nach dem Zweiten Weltkrieg durch die ideologische Auseinandersetzung zwischen Ost und West geteilt wurden, zeichnet die Wahrnehmung dieses Ereignisses durch die Journalisten der drei Länder aufgrund ihrer unterschiedlichen politischen Entwicklungen und Pressetraditionen bemerkbare Unterschiede auf. Die deutschen Journalisten tendieren dazu, die Vorzüge der Bundesrepublik Deutschland gegenüber der damaligen DDR hervorzuheben. Die taiwanesischen Journalisten distanzieren sich wegen der asymmetrischen Teilungsgröße zwischen Taiwan und der Volksrepublik China von der Möglichkeit einer Wiedervereinigung Chinas. Die südkoreanischen Journalisten weisen starken Nationalismus auf und setzen sich am häufigsten für Nordkorea und eine eventuelle Wiedervereinigung der koreanischen Halbinsel ein. Im letzten Teil der Studie wird das Rollenverständnis der Journalisten für die Berichterstattung über die Teilungsprobleme untersucht. Es bestätigt sich, dass die Sichtweise der Journalisten über die Teilung und Wiedervereinigungsprobleme ihres Landes sich auf ihre Berichterstattung über die entsprechenden Themen auswirkt. Diese Ergebnisse stimmen mit der Theorie der „Instrumentellen Aktualisierung“ überein.

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Addressing current limitations of state-of-the-art instrumentation in aerosol research, the aim of this work was to explore and assess the applicability of a novel soft ionization technique, namely flowing atmospheric-pressure afterglow (FAPA), for the mass spectrometric analysis of airborne particulate organic matter. Among other soft ionization methods, the FAPA ionization technique was developed in the last decade during the advent of ambient desorption/ionization mass spectrometry (ADI–MS). Based on a helium glow discharge plasma at atmospheric-pressure, excited helium species and primary reagent ions are generated which exit the discharge region through a capillary electrode, forming the so-called afterglow region where desorption and ionization of the analytes occurs. Commonly, fragmentation of the analytes during ionization is reported to occur only to a minimum extent, predominantly resulting in the formation of quasimolecular ions, i.e. [M+H]+ and [M–H]– in the positive and the negative ion mode, respectively. Thus, identification and detection of signals and their corresponding compounds is facilitated in the acquired mass spectra. The focus of the first part of this study lies on the application, characterization and assessment of FAPA–MS in the offline mode, i.e. desorption and ionization of the analytes from surfaces. Experiments in both positive and negative ion mode revealed ionization patterns for a variety of compound classes comprising alkanes, alcohols, aldehydes, ketones, carboxylic acids, organic peroxides, and alkaloids. Besides the always emphasized detection of quasimolecular ions, a broad range of signals for adducts and losses was found. Additionally, the capabilities and limitations of the technique were studied in three proof-of-principle applications. In general, the method showed to be best suited for polar analytes with high volatilities and low molecular weights, ideally containing nitrogen- and/or oxygen functionalities. However, for compounds with low vapor pressures, containing long carbon chains and/or high molecular weights, desorption and ionization is in direct competition with oxidation of the analytes, leading to the formation of adducts and oxidation products which impede a clear signal assignment in the acquired mass spectra. Nonetheless, FAPA–MS showed to be capable of detecting and identifying common limonene oxidation products in secondary OA (SOA) particles on a filter sample and, thus, is considered a suitable method for offline analysis of OA particles. In the second as well as the subsequent parts, FAPA–MS was applied online, i.e. for real time analysis of OA particles suspended in air. Therefore, the acronym AeroFAPA–MS (i.e. Aerosol FAPA–MS) was chosen to refer to this method. After optimization and characterization, the method was used to measure a range of model compounds and to evaluate typical ionization patterns in the positive and the negative ion mode. In addition, results from laboratory studies as well as from a field campaign in Central Europe (F–BEACh 2014) are presented and discussed. During the F–BEACh campaign AeroFAPA–MS was used in combination with complementary MS techniques, giving a comprehensive characterization of the sampled OA particles. For example, several common SOA marker compounds were identified in real time by MSn experiments, indicating that photochemically aged SOA particles were present during the campaign period. Moreover, AeroFAPA–MS was capable of detecting highly oxidized sulfur-containing compounds in the particle phase, presenting the first real-time measurements of this compound class. Further comparisons with data from other aerosol and gas-phase measurements suggest that both particulate sulfate as well as highly oxidized peroxyradicals in the gas phase might play a role during formation of these species. Besides applying AeroFAPA–MS for the analysis of aerosol particles, desorption processes of particles in the afterglow region were investigated in order to gain a more detailed understanding of the method. While during the previous measurements aerosol particles were pre-evaporated prior to AeroFAPA–MS analysis, in this part no external heat source was applied. Particle size distribution measurements before and after the AeroFAPA source revealed that only an interfacial layer of OA particles is desorbed and, thus, chemically characterized. For particles with initial diameters of 112 nm, desorption radii of 2.5–36.6 nm were found at discharge currents of 15–55 mA from these measurements. In addition, the method was applied for the analysis of laboratory-generated core-shell particles in a proof-of-principle study. As expected, predominantly compounds residing in the shell of the particles were desorbed and ionized with increasing probing depths, suggesting that AeroFAPA–MS might represent a promising technique for depth profiling of OA particles in future studies.