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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Development of a Novel Tandem Mass Spectrometry Technique for Forensic and Biological Applications

Collin, Olivier L. January 2007 (has links)
No description available.
22

GAS-PHASE STUDIES OF METAL IONS IN BIOMOLECULE IONS

Nicole Michelle Brundridge (18290698) 03 April 2024 (has links)
<p dir="ltr">Metal ions are typically considered a nuisance for mass spectrometry, as they can introduce chemical noise and distribute an analyte’s signal into multiple peaks. In some cases however, metal ions in biological solutions are either necessary for biomolecular structures, or so ubiquitous in a sample’s native solution conditions that they are difficult to fully remove. In this work, the role of metal ions in biological analytes is explored. For analytes that require metal ions to maintain higher order structures, a mass spectrometry method was developed to determine whether a stable structure is formed from metal ion adducts, or if the metal ion adducts are nonspecifically bound. Electron transfer of these structures reveals complementary fragmentation information, with the added discovery of new radical fragmentation pathways. With mass spectrometry, specific ligand and metal ion affinities can even be determined for analytes at low enough concentrations. In addition to analytes that require metals, an exploration on unwanted metal ion adduction during the electrospray ionization process is shown via gas-phase ion/ion reactions. Observing how specific anionic ligands exchange metals with protons from proteins on a small and controlled scale gives a greater understanding of what solutions can lead to the cleanest results. In addition, this work shows the possibility of finding anionic ligands that will instead exchange protons with metal ions found on proteins. In the gas-phase, these experiments have a high degree of control, leading to a much greater understanding of how metal ions influence mass spectrometry samples.</p>
23

<b>CHARACTERIZATION OF NANOCLUSTERS THROUGH ION SOFT LANDING, ION MOBILITY, AND COLLISION-INDUCED DISSOCIATION</b>

Solita Marie Wilson (19200967) 23 July 2024 (has links)
<p dir="ltr">The field of nanoclusters includes a broad range of sizes and structures that influence both their physical and chemical properties. Scientists use several techniques, such as atom-by-atom substitution, to synthesize atomically precise nanoclusters, and ligand shell mixing to protect nanoclusters from unwanted side reactions, while controlling their reactivity and solubility. These combined techniques can provide stable products, but isomers and structural analogs often remain in the product mixture, complicating the structural characterization of individual nanoclusters. Leading structural characterization techniques in nanocluster research are often limited in their ability to examine both the structure of the metal core and ligand shell in sufficient detail. The primary aim of this research is to systematically characterize the structures and chemical properties of several types of transition metal oxide nanoclusters of interest to applications in energy production, catalysis, and magnetic resonance imaging, without requiring purification. Specifically, this work focuses on 1) Polyoxovanadates (POV) with a mixture of methoxy, ethoxy, and ether ligands, 2) Fe- and W-substituted POV alkoxides, and 3) Octanuclear iron oxide clusters substituted with In atoms. Mass spectrometry techniques enable the structural characterization of individual clusters from multicomponent mixtures without interference. Specifically, we use ion mobility spectrometry to explore how surface ligands affect the metal core in mixed-ligand POV alkoxide species. We examine structure-specific fragments to identify the positions of ligands and heteroatoms within the metal core of mixed-ligand species and W and Fe-substituted POV methoxides. Additionally, we use ion soft-landing to purify W-substituted POV methoxide anions on surfaces for characterization using cyclic voltammetry and infrared spectroscopy. We discovered unique characteristics of each nanocluster including the position of heteroatoms, ligands shell mobilities, structures and collisional cross sections, and provided first insights into the redox properties of W-substituted POV alkoxide. These results highlight the growing influence of mass spectrometry in the field of nanocluster characterization and design.</p>
24

Spectrométrie de masse COINTOF : Conception et d'un analyseur à temps de vol et développement de la méthode d'analyse / COINTOF mass spectrometry : design of time-of-flight analyzer and development of the analysis method

Teyssier, Cécile 28 September 2012 (has links)
Le Dispositif d'Irradiation d'Agrégats Moléculaires (DIAM) est conçu pour l'étude de mécanismes de dissociation résultant de l'interaction de nanosystèmes moléculaires avec des protons de 20-150 keV. Une technique originale de spectrométrie de masse appelée COINTOF (Correlated Ion and Neutral Time Of Flight) permet la mesure corrélée du temps de vol des fragments neutres et chargés issus de la dissociation d'un système moléculaire sélectionné en masse. Une stratégie de traitement des signaux a été développée afin de pouvoir distinguer des fragments proches en temps (< 1ns). Les données collectées sont structurées dans le logiciel ROOT® pour l'analyse statistique des corrélations. Le fonctionnement de la technique COINTOF est illustré par des expériences de dissociation induite par collision d'agrégats d'eau protonés sur une cible gazeuse. La méthodologie d'analyse des données est exposée à travers l'étude du canal de dissociation du trimère d'eau protoné produisant l'ion chargé H3O+ et deux molécules d'eau. La distribution de la différence de temps de vol entre les deux fragments neutres est mesurée, mettant en évidence une énergie libérée de quelques eV. En parallèle, un second spectromètre de masse à temps de vol adapté à l'évolution du dispositif a été développé. Il associe un temps de vol linéaire et un temps de vol orthogonal et intègre un détecteur à position (ligne à retard). Des simulations ont démontré les potentialités du nouvel analyseur. Enfin, des travaux ont été menés au laboratoire R.-J. A. Lévesque (Université de Montréal) portant sur les capacités d'imagerie de détecteurs à position multi-pixel de la collaboration MPX-ATLAS. / DIAM (Dispositif d'Irradiation d'Agrégats Moléculaires) is a n ewly designed experimental setup to investigate processes resulting from the irradaition of molecular nano-systems by 20-150 keV protrons. One of its specificities relies on the original techique of mass spectrometry named COINTOF (Correlated Ion and Neutral Time of Flight) consisting in correlated measurments of the time of fkight of charged and neutral fragments produced by the dissociation of a single molecular ion parent. A strategy of treatment and analysis of the detection signals was developed to distinguish two fragments close in time (<1ns). The collected data are structured in the software ROOT for the statistical analysis of the correlations. The COINTOF technique is illustrated in the case of collision induced dissociation of protonated water clusters on atomic targets. The methodology of the analysis is explained through the study of dissociation channel of the protonated water trimer producing the charged fragment H3O+ and two water molecules. The distribution of the time of flight difference between the two neutral fragments is measured providing a,n estimate of the kinetic energy release of a few eV. In parallel, a second time-of-flight mass spectrometer was designed. It associated a linear time-of-flight and an orthogonal time-of-flight and integrates position detectors (delay line anode). Simulations demonstrate the potentials of the new analyzer. Finally, research works were led at the laboratory R.-J. A. Lévesque (Université de Montréal) on the imaging capabilities of the multi-pixel detectors of the MPX-ATLAS collaboration.
25

Application de la spectrométrie de masse COINTOF à l'étude de la dissociation de petits agrégats d'eau protonés par collision sur un atome d'argon : développement d'une cible de nano-gouttes de gaz rare / Collision induced dissociation of protaned water clusters studies with the COINTOF mass spectrometry technique : development of a target of rare gas droplets

Buridon, Victor 13 December 2013 (has links)
L'étude de l'irradiation dans le système moléculaire à l'échelle du nanomètre est un domaine d'investigation innovant des sciences des radiations. Le Dispositif d'Irradiation d'Agrégats Moléculaires (DIAM) est conçu en vue les conséquences de l'irradiation dans des petits systèmes moléculaires modèles comme les agrégats d'eau protonés. L'irradiation provoque la fragmentation en plusieurs fragments neutres ou chargés. La technique de spectrométrie de masse COINTOF (Correlated Ion and Neutral Time of Flight) permet la détection corrélées des fragments neutres et chargés issus de la dissociation d'un système moléculaire préalablement sélectionné en masse et en vitesse. Les données collectées sont traitées et structurées pour permettre l'analyse statistique des corrélations sur un grand nombre d'événements de fragmentation. Parallèlement à l'identification des canaux de fragmentation, la technique COINTOF permet la mesure de leur rapport de branchement et de leur section efficace. La méthode est présentée pour la dissociation induite par collision sur un atome d'argon, d'agrégats d'eau protonés H+(H2O)n:[2;7], accélérés à 8keV. L'efficacité de détection, information déterminante pour la production de données quantitatives, est mesurée à partir des données et étudiée en fonction de la distribution l'amplitude des signaux de détection. Enfin, un nouveau système de cible constituée de nanogouttes de gaz rares a été développé / The study of irradiation in molecular systems at the nanometer scale is an innovative field of research in radiation sciences. The DIAM set-up (Dispositif d'Irradiation d'Agrégats Moléculaires) is designed in order to observe and to characterize the consequences of radiation action on model molecular nanosystems such as protonated water clusters. Irradiation induces the fragmentation of the nanosystem in several neutral and charged fragments. The COINTOF (Correlated Ion and Neutral fragments Time of Flight) mass spectrometry techniques allows the correlated detection of the neutral and charged fragments resulting from the dissociation of a mass and velocity selected molecular system. The data processing is performed before the statistical analysis of the fragment production over a large number of fragmentation events. In parallel with the fragmentation channel identification, branching ratio and cross sections are measured with the COINTOF technique. The method is presented here for the collision induced dissociation on argon atoms of protonated water clusters H+(H2O)n, n=2-7, accelerated at 8keV. The detection efficiency, key parameter for the production of quantitative results, is measured from the set of data itself and studied as a function of the amplitude distribution of the detection signal. Finally, a new set-up for production of rare-gas nanodroplets target has been developed
26

From Copper to Gold: Identification and Characterization of Coinage-Metal Ate Complexes by ESI Mass Spectrometry and Gas-Phase Fragmentation Experiments

Weske, Sebastian 30 January 2019 (has links)
No description available.
27

Aufbau und Anwendung einer Methode zur Identifizierung und Quantifizierung von Giften und deren Metaboliten in Blut und Haaren in der Systematischen Toxikologischen Analyse mittels Flüssigchromatographie-Quadrupol-Flugzeitmassenspektrometrie-Kopplung (LC-QTOF-MS)

Broecker, Sebastian 15 February 2012 (has links)
Die Systematische Toxikologische Analyse (STA) stellt auf Grund der großen Vielfalt und der ständigen Zunahme an toxikologisch relevanten Substanzen eine der größten Herausforderungen in der chemischen Analyse dar. In der vorliegenden Arbeit wurde daher die Eignung der Flüssigchromatographie in Kombination mit der Hybrid-Quadrupol-Flugzeitmassenspektrometrie (LC-QTOF-MS) für diesen Zweck untersucht. Dazu wurden eine Datenbank mit über 7360 und eine CID-Spektrenbibliothek mit mehr als 2720 toxikologisch relevanten Substanzen erstellt und geeignete Probenvorbereitungsmethoden entwickelt. Die Erprobung der Methoden erfolgte an dotierten Blut- und Haarproben. Hierbei zeigte sich, dass die Analyse im Auto-MS/MS-Modus (Messzyklen von MS- und MS/MS-Spektren) eine Identifizierung basischer Substanzen mittels CID-Spektren zwischen 0,5 und 2 ng/ml im Blut ermöglichte. Die Nachweisgrenzen der für 24 Wirkstoffe validierten Methode in Haaren lagen bei 3 bis 15 pg/mg. Die Eignung der LC-QTOF-MS zur STA von Haarproben wurde an 30 Drogentodesfällen und 60 Todesfällen mit bekannter chronischer Medikamenteneinnahme zu Lebzeiten sowie an 77 Blutproben nachgewiesen. Für die Suche nach Metaboliten wurde ein Metaboliten-Tool entwickelt. In der praktischen Anwendung auf Datenfiles von Blut- und Haarproben erwies sich das Tool als wertvolles Hilfsmittel zur Identifizierung unbekannter Peaks und zur Bestätigung von Suchergebnissen in der Datenbank. Zur automatischen Konzentrationsabschätzung identifizierter Substanzen wurde ein Tool „Estimate Concentration“ geschaffen. Die Überprüfung des Verfahrens an realen Blut- und Haarproben durch Vergleich mit HPLC-DAD- und GC-MS-Ergebnissen wies eine gute Übereinstimmung der Konzentrationen auf. Insgesamt zeigten die Untersuchungen, dass die LC-QTOF-MS zurzeit die am besten geeignete Methode für die STA darstellt. Auch bei einem erst später aufkommenden Verdacht kann eine gezielte Suche in dem bereits gemessenen Datenfile durchgeführt werden. / Due to the large variety and the steady increase of toxicologically relevant substances, systematic toxicological analysis (STA) is one of the most difficult tasks in analytical chemistry and, therefore, a steady topic of research and methodical improvement. For this reason, the suitability of liquid chromatography in combination with hybrid quadrupole time-of-flight mass spectrometry (LC-QTOF-MS) for STA was investigated. For this purpose, a database of more than 7360 and a CID spectra library of more than 2720 toxicologically relevant substances and suitable methods for sample preparation were developed. The application was evaluated at spiked blood and hair samples. It was found that the analysis in Auto-MS/MS mode (alternating measurement cycles of MS and MS/MS spectra) allowed substance identification in blood using CID spectra between 0.5 and 2 ng/ml for basic substances. The detection limits of the validated method in hair ranged from 3 to 15 pg/mg for 24 drugs. The suitability of LC-QTOF-MS for STA was tested for hair samples from 30 drug-related death cases and from 60 death cases with known chronic medication as well as for 77 blood samples. For the search of metabolites, a metabolite tool was developed. In the practical application to data files from blood and hair samples, the tool proved to be very helpful for identification of unknown peaks and for confirmation of results obtained only from the database without CID spectra. A tool "Estimate Concentration" was created for automatic estimation of concentrations of identified substances. The application to real blood and hair samples and the comparison of the concentrations with results from HPLC-DAD and GC-MS showed good agreement. Overall, these investigations showed that LC-QTOF-MS is currently the most favorable method for STA. Because of the comprehensive registration of all substances in a sample, the data files can be checked for the presence of certain poisons even later without new measurements.

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