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31	Ésteres em aguardente de cana: seu perfil / Esters in sugar cane spirits: its profile Eduardo Sanches Pereira do Nascimento 17 April 2007 (has links) A presença de nove ésteres (acetato de etila, butanoato de etila, hexanoato de etila, lactato de etila, octanoato de etila, nonanoato de etila, decanoato de etila, octanoato de isoamila e dodecanoato de etila) foi investigada por cromatografia gasosa hifenada à espectrometria de massas via injeção direta de amostras (ID-CG-EM). Cento e trinta e seis amostras de aguardente de cana foram coletadas durante sua destilação em diferentes produtores em diferentes cidades localizadas no interior do estado de São Paulo. Também foram analisadas 21 amostras de cachaça comercial, 10 amostras de rum e 10 amostras de uísque importados e obtidos em lojas \"duty free shop\". A metodologia analítica desenvolvida para análise de ésteres demonstrou-se apropriada para a determinação destes compostos em bebidas destiladas, sendo simples (injeção direta), seletiva e relativamente rápida. Apresentou baixos limites de detecção e quantificação e boa repetibilidade. O acetato de etila é o principal éster presente nas bebidas destiladas seguido pelo lactato de etila. Em todas as amostras de bebidas destiladas analisadas neste trabalho foi detectada a presença do éster lactato etila. A presença deste éster está relacionada com a contaminação do mosto por bactérias (Lactobacillus spp) responsáveis pela fermentação láctica. A concentração de lactato de etila nas amostras de cachaça e rum é muito superior à encontrada nas amostras de uísque. A análise multivariada dos resultados analíticos aplicada ao banco de dados dos ésteres juntamente com as concentrações de carbamato de etila e benzaldeído levaram à formação de dois grupos bem distintos: amostras destiladas em alambiques de cobre e amostras destiladas em colunas de aço inox. Os modelos estatísticos gerados pelas análises exploratórias de PCA, PLS e LDA utilizando o carbamato de etila, benzaldeído, decanoato de etila e o dodecanoato de etila como discriminantes revelaram ser possíveis a diferenciação entre estes dois grupos de destilados com uma porcentagem de acerto de 81% para PCA, 78,4 % para a PLS e 97,6% para LDA. Os métodos cromatográficos sugeridos pelo Ministério da Agricultura, Pecuária e Abastecimento (MAPA) para a determinação de ésteres não englobam o monitoramento do lactato de etila, subestimando o resultado final. / The presence of nine esters (ethyl acetate, ethyl butanoate, ethyl hexanoate, ethyl lactate, ethyl octanoate, ethyl nonanoate, ethyl decanoate, isoamyl octanoate, and ethyl dodecanoate) was investigated by gas chromatography hyphenated to a mass spectrometry through sample direct inject (DI-GC-MS). One hundred and thirty six sugar cane spirits collected immediately after its distillation from different producers and different cities located in the countryside of São Paulo state. Also, it was analyzed 21 commercial samples of cachaça, 10 samples of rum and 10 samples of whiskey imported and purchased from the duty free shop. The analytical method applied to esters analysis was appropriated for the determination of these compounds in distilled spirits, since it is simple (direct inject), selective and reasonably fast. It presented low detection and quantification limits and good reproducibility. Ethyl acetate is the main ester present in the distilled spirits followed by ethyl lactate. Ethyl lactate was detected in all the distilled beverage samples analyzed herein. The occurrence of this ester is related to bacterial contamination of must (Lactobacillus spp) responsible for the lactic fermentation. The ethyl lactate content in cachaça and rum samples are superior that presented by whiskey samples. The multivariate analysis of the analytical results applied to the esters data set jointly with the content of ethyl carbamate and benzaldehyde lead to the clustering of two quite distinct groups: sugar cane spirits distilled in copper alembic and sugar cane spirits distilled in stainless steel column. The resulting statistical model generated by PCA, PLS and LDA exploratory analysis employing ethyl carbamate, benzaldehyde, ethyl decanoate, and ethyl dodecanoate as discriminators was able to distinguish between these two groups with a accuracy of 81 % for PCA, 78,4 % for PLS and 97,6 % for LDA. The chromatographic method recommended by the Ministério da Agricultura, Pecuária e Abastecimento (MAPA) for the esters determination does not include the monitoring of ethyl lactate leading to a underestimating of the final result. aguardente de cana cromatografia gasosa espectrometria de massas ésteres esters gas chromatography mass spectrometer sugar cane spirit
32	Validation and application of a photo-acoustic gas analyser for multiple breath inert gas washout in children Macleod, Kenneth Alexander January 2014 (has links) Multiple breath washout (MBW) of inert gas for assessment of airway disease in children is an emerging technique. In many studies Lung Clearance Index (LCI), derived from multiple breath washout of SF6, is more able to detect early or mild lung disease than standard lung function measurements. It is also able to detect very early lung disease in progressive conditions such as Cystic Fibrosis (CF). Where infants born with this condition were thought to have minimal lung disease activity, LCI is higher in these children than healthy controls. Lack of available commercial devices has hampered expansion of this technique to centres other than specialist research teams. Innocor (Innovision, Dk), a photoacoustic mass spectrometer capable of performing multiple breath washout, was adapted within this research group for use in adults. This thesis describes the setup, adaptation and validation of Innocor for use in children. In 4 studies, healthy controls, children with asthma and children with CF were recruited to perform MBW. In one study, 29 healthy controls and 31 children with asthma were recruited. Healthy controls performed 1 set of washouts, establishing a normative range. Children with asthma performed measurements before and after bronchodilator. Results showed increased LCI in children with asthma even though they were clinically stable as defined by symptoms. LCI stayed high even following bronchodilator suggesting evidence of residual airway disease in well controlled asthmatics despite adequate symptom control. To investigate short term variability of MBW measurements, two other studies recruited 18 children with CF in each. They performed measurements before and after standard physiotherapy manoeuvres and during sitting and lying posture. LCI did not change significantly after airway clearance physiotherapy, compared with children who did no intervention. Variability was high in both groups however suggesting CF lung disease is a complex interaction of changing ventilation in adjacent lung units. Lying posture induced greater changes in lung function in children with CF than controls. LCI appears to be more sensitive to this change than standard lung function measurements (spirometry). In another study 32 children with CF were recruited to perform serial lung function measurements over 18 months. These were data collected as part of the UK Cystic Fibrosis Gene Therapy Consortium (CFGTC) clinical studies in preparation for planned gene therapy trials. LCI appears comparable to FEV1 and may be able to detect another aspect of airway disease. All initial studies were performed in older children (>5yrs). The basic Innocor device is unsuitable for testing of younger patients with low breath volume and high respiratory rate. In-house adaptations following detailed lung model experimentation led to a faster analyser response, potentially capable of MBW in younger children. The second part of this thesis concerns lab experiments and an in-vivo comparison with the current gold-standard MBW device, a respiratory mass spectrometer. 16 healthy volunteers and 9 children with CF were recruited. Ages ranged from 0.4 yrs to 49 yrs. Innocor values for lung volume estimation compared favourably with the mass spectrometer. No evidence of bias caused by Innocor error was seen, however intra-test variability was rather high, reducing the precision of the results. These studies indicate Innocor is a robust, simple to use device with potential as a commercial lung function system. Modifications were made to make it suitable for use in all ages. Further development will need to focus on the patient interface and software, which is the domain of the manufacturers. The experiments contained in this thesis are therefore of interest to the wider respiratory research community as well as manufacturers of MBW devices.
33	MASS SPECTROMETRY AT POINT-OF-CARE: SIMPLE YET POWERFUL SOLUTIONS FOR BETTER HEALTH Fan Pu (7874093) 20 November 2019 (has links) <p>The superior sensitivity and selectivity obtained with mass spectrometry (MS) is hardly matched by other analytical technologies, therefore it is an indispensable tool for modern society. Traditionally, MS is coupled with chromatography separation and performed in centralized analytical laboratories, which often requires extensive sample preparation and expensive instrumentation. With the advancements in the field of ambient MS and miniature MS, MS analysis at point-of-care (POC) has become a reality. Ambient MS includes a variety of methods for sampling and ionization, but they all share a common feature: they require little to no sample preparation. This has made rapid analysis of untreated sample possible and speed of MS analysis is significantly improved. Miniature MS, on the other hand, shrinks down the sizes of conventional benchtop instruments so they become portable or fieldable. In this dissertation, I documented the developments of ambient MS methods and applications of miniature MS for a variety of health-related topics, which include preclinical pharmacokinetics, intraoperative diagnosis, drug adherence monitoring and food safety. </p> Mass spectrometry Point of care Miniature Mass Spectrometer Ambient ionization
34	DEVELOPMENT OF ANALYTICAL METHODS AND REFERENCE MATERIALS FOR CYANOBACTERIAL TOXINS Hollingdale, Christie 16 May 2013 (has links) Cyanobacterial toxins present a real and growing threat to humans and animals due to the projected increases in algal blooms resulting from increasing global temperature and pollution. Wild animals, livestock, pet animals and humans can be poisoned from contaminated drinking water. With the discovery of cyanobacterial toxins present in nutritional supplements, a new concern looms over consumers with threats of neurotoxin and hepatotoxin related damage from exposure to these products. To this end, work on the development of a freeze dried algal reference material was pursued for future use in environmental and nutritional supplement analysis. The first stage of the project was to prepare needed calibration standards, starting with homoanatoxin a, a homologue of the highly neurotoxic anatoxin-a compound. The resulting reference material (RM-hATX) had a homoanatoxin-a concentration of 20.2 ± 0.7 ?M, and proved to be stable while stored at temperatures of 80°C. Reference samples for dihydro and epoxy analogues of anatoxin-a and homoanatoxin-a were then prepared by semi-synthesis. The second stage of the project was the development of new analytical methods for the anatoxins. A derivatization reaction in which dansyl chloride was coupled with a novel cleanup step produced anatoxin derivatives suitable for liquid chromatography (LC) with mass spectrometry (MS) or fluorescence detection (FLD). Limits of quantitation were 60 ng L-1 and 1.6 ?g L-1 for the developed LC-MS/MS and LC-FLD methods, respectively, with the limit of quantitation significantly better than that of a previously developed method for the underivatized toxins based on HILIC MS/MS. Quantitative results for anatoxins in various algal samples using all three methods of analysis of were compared and it was found that there were no significant differences between the three methods. Unfortunately, experiments showed that the various toxin analogues did not elicit equimolar responses in either LC-MS/MS or LC FLD, thus indicating the importance of having individual calibration standards for quantitative analysis. The LC-MS/MS and LC-FLD methods were paired with a previously developed method for the analysis of hepatotoxic microcystins to screen a small number of nutritional supplement samples for cyanobacterial toxins. Microcystins were detected in all five Aphanizomenon flos-aquae samples examined. This method involved a fifteen-fold pre-concentration using a solid phase extraction cartridge, which gave a 98% recovery of microcystins. The third phase of the project was the preparation and testing of a preliminary algal matrix reference material as a feasibility study for the eventual production of a CRM. After selecting various algal cultures and samples that could be blended together, a freeze dried algal reference material was prepared and packaged. This material (RM-BGA) was then characterized using several methods including the two new dansylation-based procedures. anatoxin-a microcystin HPLC mass spectrometer fluorescence dansyl chloride blue-green algae reference material
35	炭素14と宇宙線変動 : 奈良時代の異変 Nakamura, Toshio, Nagaya, Kentarou, Miyake, Fusa, Masuda, Kimiaki, 中村, 俊夫, 永冶, 健太朗, 三宅, 芙沙, 増田, 公明 03 1900 (has links) 名古屋大学年代測定総合研究センターシンポジウム報告 accelerator mass spectrometer solar proton event gamma-ray burst super nova cosmic rays radiocarbon
36	High Resolution Spectroscopy of Metal-containing Molecules and Construction of Resonance-Enhanced Multi-Photon Ionization Time-of-Flight Mass Spectrometer (REMPI-TOFMS) January 2012 (has links) abstract: This thesis describes the studies for two groups of molecules in the gas-phase: (a) copper monofluoride (CuF) and copper hydroxide (CuOH); (b) thorium monoxide (ThO) and tungsten carbide (WC). Copper-containing molecules (Group a) are selected to investigate the ionic bonding in transition metal-containing molecules because they have a relatively simple electronic state distribution due to the nearly filled 3d-orbital. ThO and WC (Group b) are in support of particle physics for the determination of electron electric dipole moment (eEDM), de, the existence of which indicates new physics beyond the Standard Model. The determination of the tiny eEDM requires large electric fields applied to the electron. The 3(Delta)1 states for heavy polar molecules were proposed [E. R. Meyer, J. L. Bohn, and M. P. Deskevich, Phys. Rev. A 73, 062108 (2006)] to determine de with the following attractive features: (1) large electric dipole moments; (2) large internal electric fields, Eeff, experienced by valence electrons; (3) nearly degenerate omega-doublets; (4) extremely small magnetic dipole moments. The H3(Delta)1 state for ThO and the X3(Delta)1 state for WC are both good candidates. Spectroscopic parameters (i.e. molecular electric and magnetic dipole moments, omega-doubling parameters, etc) are required for the 3(Delta)1 states of ThO and WC. High resolution optical spectra (linewidth ~50 MHz) of CuF, CuOH, ThO and WC were recorded field-free and in the presence of a static electric field (or magnetic field) using laser ablation source/supersonic expansion and laser induced fluorescence (LIF) detection. The spectra were modeled by a zero-field effective Hamiltonian operator and a Stark (or Zeeman) Hamiltonian operator with various molecular parameters. The determined molecular parameters are compared to theoretical predictions. The small omega-doubling parameter was well determined using the pump/probe microwave optical double resonance (PPMODR) technique with a much higher resolution (linewidth ~60 kHz) than optical spectroscopy. In addition to the above mentioned studies of the two groups of molecules, a resonance enhanced multi-photon ionization (REMPI) combined with a time-of-flight mass spectrometer (TOFMS) has been developed to identify the molecules responsible for observed LIF signals. The operation of this spectrometer has been tested by recording the mass spectrum of Ti/O2 and the REMPI spectrum for TiO using a two-color excitation scheme. / Dissertation/Thesis / Ph.D. Chemistry 2012 Physical chemistry Molecular chemistry Laser-induced fluorescence Mass spectrometer metal-containing molecules REMPI Spectroscopy TOF
37	System Design For Non-Destructive Detection Of Ions In A Paul Trap Mass Spectrometer Gorde, Dnyaneshwar R 04 1900 (has links) (PDF) No description available. Ion Detectors Paul Trap Mass Spectrometer Paul Traps Coupling Transformer Electrochemistry
38	An Algorithm For Isolating Targeted Ions In Paul Traps Sarurkar, Vishram A 10 1900 (has links) (PDF) No description available. Paul Trap Paul Trap Mass Spectrometer Waveforms Ion Motion Electrochemistry
39	Sensitive Mid-IR Laser Sensor Development and Mass Spectrometric Measurements in Shock Tube and Flames Alquaity, Awad 01 November 2016 (has links) With global emission regulations becoming stringent, development of new combustion technologies that meet future emission regulations is essential. In this vein, this dissertation presents the application of sensitive diagnostic tools to validate and improve chemical kinetic mechanisms that play a fundamental role in the design of new combustion technologies. First, a novel high sensitivity laser-based sensor with a wide frequency tuning range (900 – 1000 cm-1) was developed utilizing pulsed cavity ringdown spectroscopy (CRDS) technique. The novel laser-based sensor was illustrated by measuring trace amounts of multiple combustion intermediates, namely ethylene, propene, allene, and 1-butene in a static cell at ambient conditions. Subsequently, pulsed CRDS technique was utilized to develop an ultra-fast, high sensitivity diagnostic to monitor trace concentrations of ethylene in shock tube pyrolysis experiments. This diagnostic represented the first ever successful application of CRDS technique to transient species measurements in a shock tube. The high sensitivity and fast time response (10μs) diagnostic may be utilized for measuring other key neutrals and radicals which are crucial in the oxidation chemistry of practical fuels. Secondly, a quadrupole mass spectrometer (QMS) was employed to measure relative cation mole fractions in atmospheric and low-pressure (30 Torr) flames of methane/oxygen diluted in argon. Lean, stoichiometric and rich flames were 4 examined to evaluate the dependence of ion chemistry on flame stoichiometry. Spatial distribution of cations was compared with predictions of an existing ion chemistry model. Based on the extensive measurements carried out in this work, modifications were suggested to improve the ion chemistry model to enhance the fidelity of such mechanisms. In-depth understanding of flame ion chemistry is vital to model the interaction of flames with electric fields and thereby pave the way to enable active combustion control for increased efficiency and reduced emissions. Finally, a compact fast time-response time-of-flight mass spectrometer (TOFMS) was coupled to the shock tube through a pin-hole end-wall to enable timeresolved species concentration measurements. This diagnostic tool was demonstrated by investigating the decomposition of 1,3,5-trioxane over a wide range of shock conditions. Reaction rate coefficients were extracted by the best fit to the experimentally measured species time-histories. TOF-MS coupled to the shock tube is an ideal diagnostic tool for developing kinetic mechanisms for future fuels due to its ability to simultaneously measure several species during fuel pyrolysis/oxidation processes. Mid-IR Sensitive Laser Sensor Combustion Diagnostics Shock Tube Ion Chemistry Mass Spectrometer Laminar Flames
40	Sources and Source Processes of Organic Nitrogen Aerosols in the Atmosphere Erupe, Mark E. 01 December 2008 (has links) The research in this dissertation explored the sources and chemistry of organic nitrogen aerosols in the atmosphere. Two approaches were employed: field measurements and laboratory experiments. In order to characterize atmospheric aerosol, two ambient studies were conducted in Cache Valley in Northern Utah during strong winter inversions of 2004 and 2005. The economy of this region is heavily dependent on agriculture. There is also a fast growing urban population. Urban and agricultural emissions, aided by the valley geography and meteorology, led to high concentrations of fine particles that often exceeded the national ambient air quality standards. Aerosol composition was dominated by ammonium nitrate and organic species. Mass spectra from an aerosol mass spectrometer revealed that the organic ion peaks were consistent with reduced organic nitrogen compounds, typically associated with animal husbandry practices. Although no direct source characterization studies have been undertaken in Cache Valley with an aerosol mass spectrometer, spectra from a study at a swine facility in Ames, Iowa, did not show any evidence of reduced organic nitrogen species. This, combined with temporal and diurnal characteristics of organic aerosol peaks, was a pointer that the organic nitrogen species in Cache Valley likely formed from secondary chemistry. Application of multivariate statistical analyses to the organic aerosol spectra further supported this hypothesis. To quantify organic nitrogen signals observed in ambient studies as well as understand formation chemistry, three categories of laboratory experiments were performed. These were calibration experiments, smog chamber studies, and an analytical method development. Laboratory calibration experiments using standard calibrants indicated that quantifying the signals from organic nitrogen species was dependent on whether they formed through acid-base chemistry or via secondary organic aerosol pathway. Results from smog chamber reactions of amines with ozone, nitrogen oxides, nitrate radical, and nitric acid showed that the secondary organic aerosol pathway was more plausible than acid-base chemistry, thus making the contribution of the organic nitrogen species to the total aerosol mass in Cache Valley significant. Gas phase and aerosol products formed from the smog chamber reactions were identified and used to devise reaction mechanisms. Finally, an ion chromatographic method for detecting and quantifying some key organic nitrogen species in aerosol was developed and tested. Aerosol Mass Spectrometer Amines Secondary Organic Aerosol Smog Chamber Analytical Chemistry

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