Atypical Mass Spectrometry Approaches for Unknown Analyte Identification in Complex Mixtures

Leah Felice Easterling (8958425)

16 June 2020

<div>This dissertation details three studies which utilize nontraditional applications of electrospray ionization mass spectrometry. The first study explores and discusses the limitations of identifying unknown drug metabolites using ion-molecule reactions performed inside a mass spectrometer and coupled with high performance liquid chromatography. Ultimately, it was concluded that some highly-efficient, MS² ion-molecule reactions coupled with some drug metabolites would be sufficiently sensitive for <i>in vivo</i> drug metabolism studies. However, this study also concluded that the rate of false-positives and false-negatives may be higher than previous publications suggest.</div><div><br></div><div>The next study analyzed sulfur-containing compounds under atypical negative mode electrospray ionization mass spectrometry conditions. After noting that low analyte flow rates during electrospray ionization experiments on ethanethiol resulted in significant oxygen incorporation, the aim of this study was to understand the chemistry behind the oxygen incorporation and search for ways to experimentally limit the degree of oxygen inclusion. The atypical conditions were ultimately shown to induce significant ozonolysis and other oxidation reactions. Ultimately, only the use of high flow rates or switching to a different ionization technique were successful in mitigating the oxidation product formation. A new reaction mechanism for the oxidation of ethanethiol with ozone was proposed. Quantum chemical calculations were used to support the mechanism.</div><div><br></div><div>Finally, electrospray ionization mass spectrometry was used to analyze mixtures of selenium and/or tellurium in amine-thiol solvent systems. Selenium and tellurium are essential components in many thin film solar cells and other photovoltaics and amine-thiol solvent systems have been identified as a key solution processing strategy for synthesizing selenium and tellurium thin films. However, the reaction between selenium/tellurium and the amine-thiol solvent system is poorly understood and requires detailed study before large-scale industrial synthesis can be achieved. In this study, the dissolution mechanisms for selenium and tellurium in two different amine-thiol solvent systems were explored and discussed. The role of the basicity of the amine, the relative concentrations of the thiol, and the presence of co-dissolved chalcogens were all studied and used to propose dissolution mechanisms. The results of the experiments were used to control the synthesis of lead-selenium-tellurium alloy nanoparticles and could inform further studies on controlling metal chalcogenide synthesis through the appropriate choice of amine-thiol solvents.<br></div>

Mass Spectrometry

Ion-Molecule Reactions

ozonolysis reactions

sulfur chemistry

photovoltaics

Metabolite identification

electrospray ionization

Synthèse et fonctionnalisation d'aldéhydes issus de la coupure d'esters gras insaturés / Synthesis and functionalization of aldehydes from unsaturated fatty esters cleavage

Louis, Kévin

15 November 2013

La valorisation du carbone renouvelable joue un rôle croissant dans l'industrie chimique. Ces travaux rapportent l'utilisation d'huiles végétales comme matières premières en substitution de celles d'origine fossiles pour la synthèse de monomères bio-sourcés destinés à la production de polyesters ou de polyamides.La production du 9 oxononanoate de méthyle, comme molécule plateforme, à partir d'esters méthyliques d'huile de colza a été réalisée par coupure oxydante (ozonolyse) sans solvant à température ambiante, suivie d'une réduction des intermédiaires par hydrogénation catalytique sous pression de H2 et de Pd(5)/C. Ainsi, le rendement en aldéhyde-ester est de 92%. Ce procédé a été appliqué à la synthèse de molécules plateformes avec des longueurs de chaînes de 9 à 13 atomes de carbone. Une matière première renouvelable, des conditions de réaction douces, le recyclage du catalyseur et des co-produits non toxiques et valorisables ont permis de développer un procédé durable plus respectueux de l'environnement. La réduction de la fonction aldéhyde a été menée par hydrogénation catalytique, à 50°C dans le méthanol, pour former l'alcool-ester correspondant. Le nickel de Raney ainsi que le Pd(5)/C offrent des rendements en 9-hydroxynonanoate de méthyle supérieurs à 90 %, mais le premier catalyseur conduit à un temps de réaction plus court. L'amination réductrice de la fonction aldéhyde a été menée avec succès à partir de NH3 gazeux et de Pd(5)/C, à 50°C dans le méthanol, pour conduire majoritairement à la synthèse de l'amino-ester primaire. La quantité de NH3(g) influence la sélectivité et au moins trois équivalents sont nécessaires pour limiter la formation d'amino-ester. / A high interest has been devoted to the use of renewable carbon in the chemical industry. The goal of this work is the substitution of fossil oils by vegetable oils to synthesize bio sourced monomers for polyesters and polyamides production. The synthesis of methyl 9-oxononanoate as a platform molecule from fatty acid methyl esters of rapeseed oil was carried out in solvent free ozonolysis at room temperature. Intermediary ozonides was reduced to aldehydes by catalytic hydrogenation under H2 pressure and in the presence of Pd(5)/C catalyst giving a 92% carbonyl yield. This process was applied to a wide range of unsaturated esters with a chain length within 9 and 13 carbon atoms. This process allows the selective conversion of renewable materials to value added chemicals, in mild conditions and in the presence of a recyclable catalyst. Moreover, the co products are non toxic and valuable. Hydrogenation of aldehyde group was performed in the presence of methanol at 50°C under hydrogen pressure. Raney Nickel and Pd(5)/C exhibit a yield to methyl 9 hydroxynonanoate higher than 90%. Reductive amination of the aldehyde functional group was investigated with success in the presence of NH3(g) and Pd(5)/C at 50°C in methanol to produce primary amino ester. The amount of ammoniac is directly correlated to the selectivity of the reaction. As a consequence a minimum amount of 3 eq. of ammoniac is required to avoid the formation of secondary amino-ester.

Huile végétale

Esters d'acides gras

Ozonolyse

Réduction

Amination

9-oxononanoate de méthyle

Monomères

Vegetable oil

Fatty acid methyl esters

Ozonolysis

Reduction

Amination

Methyl 9-oxononanoate

Monomers

660.284 4

Etude de la réactivité hétérogène de pesticides adsorbés sur des particules modèles atmosphériques : cinétiques et produits de dégradation / Heterogeneous reactivity of pesticides adsorbed on atmospheric particles : kinetics and degradation products

Socorro, Joanna

08 December 2015

Les pesticides sont un sujet d’actualité suscitant de nombreuses interrogations. Lors de leur épandage, une partie des pesticides sont émis dans l’atmosphère, important vecteur de dissémination. Ils se répartissent dans les différentes phases de l’atmosphère dont notamment la phase particulaire par la multiplication des usages de pesticides semi-volatils. Ils s’adsorbent à la surface des particules atmosphériques et sont soumis à des processus photochimiques régissant leur devenir. Actuellement, les estimations de la dégradation atmosphérique des pesticides ne prennent en compte que la phase gazeuse. Afin d’appréhender leur devenir et leurs impacts sur la santé et l’environnement, la réactivité hétérogène de 8 pesticides (cyprodinil, deltaméthrine, difénoconazole, fipronil, oxadiazon, pendiméthaline, perméthrine et tétraconazole) adsorbés à la surface de particules modèles a été étudiée. Ce travail s’est centré sur la détermination des temps de vie de ces 8 pesticides en présence d’humidité vis-à-vis du rayonnement solaire, de l’ozone (O3) et des radicaux hydroxyles (OH). Pour un ensoleillement moyen, les temps de vie en phase particulaire varient de 1 à 68 jours. Pour une concentration moyenne de 40 ppb d’O3 et de 10^6 molécule.cm^-3 en radicaux OH, les temps de vie sont respectivement compris entre 8 et plus de 35 jours et entre 24 à plus de 54 jours. La réactivité en phase particulaire est donc beaucoup plus lente qu’en phase gazeuse et confirme la nécessité de prendre en compte cette phase. Par l’identification des produits de dégradation, des mécanismes réactionnels mettent en évidence la formation de composés potentiellement plus toxiques que leurs précurseurs. / Pesticides represent a topic which raise an important number of questions. During their application, one fraction of the pesticides is emitted in the atmosphere, an important dissemination vector. In the atmosphere, pesticides are partitioned between different phases. However, due to increased use of semi-volatile pesticides, they are mostly enriched in the atmospheric particulate phase. They are adsorbed on the surface of atmospheric particles and undergo photochemical processes which govern the fate of pesticides in the atmosphere. Currently, the atmospheric fate of pesticides is based only on gas-phase reactivity. In order to properly understand the fate of pesticides and their impact on human health and on the environment, heterogeneous reactivity of 8 pesticides (cyprodinil, deltamethrin, difenoconazole, fipronil, oxadiazon, pendimethalin, permethrin and tetraconazole) adsorbed on the surface of silica particles, is evaluated. This work deals with the determination of lifetimes of these 8 pesticides under solar light irradiation, ozone (O3) and hydroxyl radicals (OH), in presence of humidity. With a daily average sunshine, the lifetimes of the pesticides in the particle phase are between ca. 1 day and 68 days. For an average mixing ratio of 40 ppb of O3 and 10^6 cm^-3 of OH radicals, the lifetimes span between 8 and more than 35 days and 24 and more than 54 days, respectively. This study shows that the reactivity in the particle phase is slower than in the gas phase and confirm the necessity to be taken into account. Degradation products are identified and reaction mechanism is proposed bringing to light the formation of compounds more toxic than their precursors.

Réactivité hétérogène

Pesticides

Particules atmosphériques

Ozonolyse

Photolyse

Radicaux hydroxyles

Cinétiques

Produits de dégradation

Heterogeneous reactivity

Pesticides

Atmospheric particles

Ozonolysis

Photolysis

Hydroxyl radicals

Kinetics

Degradation products

Tropospheric ozone and photochemical processing of hydrocarbons : laboratory based kinetic and product studies

Leather, Kimberley

January 2012

Laboratory based temperature-dependent kinetics and product yields for alkene ozonolysis and the reaction of CH3O2 with ClO and BrO have been measured via chamber studies and a turbulent flow tube coupled to CIMS (Chemical Ionisation Mass Spectrometry). In order to gain a better understanding of the fate of the products formed during hydrocarbon oxidation and their subsequent impact on the ozone budget (and so the oxidising capacity of the atmosphere) it is imperative to know the rate at which these reactions proceed and to identify their product yields. As tropospheric temperature varies, Arrhenius parameters were determined during the ozonolysis of selected alkenes. The temperature dependent kinetic database was extended and the activation energies for the ozonolysis of selected alkenes were correlated with an existing SAR (Structure Activity Relationship). Given the myriad organic species in the atmosphere, SARs are useful tools for the prediction of rate coefficients. Inclusion of Arrhenius parameters into the SAR allows for prediction over a range of temperatures, improving the conditions reflected in models. Achieving mass balance for alkene ozonolysis has proven to be a difficult challenge considering the numerous pathways of the Criegee Intermediate (CI). The product yield of formic acid – an organic acid with significant atmospheric implications which is under predicted by models – was determined as a function of relative humidity during ethene ozonolysis. This reaction exhibited a strong water dependence which lead to the prediction of the reaction rate of the CI with water which ranges between 1 × 10-12 – 1 × 10-15 cm3 molecule-1 s-1 and will therefore dominate its loss with respect to bimolecular processes in the atmosphere. Peroxy radicals, strongly influence the total oxidising capacity of the troposphere. The reaction of peroxy radicals with halogen oxides is recognised to be responsible for considerable ozone depletion in the atmosphere, exacerbated by reactive halogens (X, XO) taking part in catalytic cycles. Arrhenius parameters were determined for ClO + CH3O2 and BrO + CH3O2. Temperature is an important parameter affecting rate, exemplified here as the reaction involving ClO exhibited a positive temperature dependence whereas for BrO a negative temperature dependence was evident. As a consequence, the impact of ClO + CH3O2 with respect to ozone loss is diminished. Global modelling predicts a reduction in ozone loss by a factor of around 1.5 and implicates regions such as clean marine environments rather than the polar stratosphere. Conversely, a more pronounced temperature dependence for the reaction of BrO with CH3O2 placed particular importance on lower stratospheric chemistry where the modelled CH3O2 oxidation is doubled. The main products for this reaction were identified to be HOBr and CH2O2. The decomposition of CH2O2 could enhance HOx in the lower and middle stratosphere and contribute to a significant source of HOx in the upper troposphere. Bimolecular reaction of CH2O2 with water could also provide a none negligible source HC(O)OH in the upper troposphere. Alkenes and peroxy radicals undergo chemical processing in the atmosphere whilst acting as a source and sink of ozone and thus can impose detrimental effects on the biosphere, climate and air quality of the Earth.

551.51

Atmospheric chemical processes : reaction of ozone with 2- and 3-carene, evolution of internal mixed combustion particles / Processus chimiques atmosphériques : réaction de l’ozone avec 2- et 3- carène, réaction de surface et hydratation de particules issues de la combustion

Chen, Hui

09 December 2014

Dans cette thèse, nous présentons des travaux complémentaires conduits à ICARE-CNRS (Orléans), partie A et à l’Université de Fudan (Shanghai), partie B. Partie A : les 2-et 3-carène sont deux composés organiques volatils biogéniques importants présents dans l’atmosphère dont les voies de dégradation sont encore mal connues. Afin de déterminer les constantes de vitesse des réactions de ces espèces avec l’ozone, nous avons utilisé trois systèmes expérimentaux complémentaires : des chambres de simulation d’ICARE de 7300L et 80000L (HELIOS) et un réacteur à flux laminaire. Les rendements de certains produits de réactions, le radical hydroxyle (OH), le formaldéhyde (HCHO) et le monoxyde de carbone (CO) ont aussi été déterminés. D’autre part, pour avoir une meilleure compréhension d’intermédiaires de réaction formés lors de l’ozonolyse, appelés intermédiaires de Criegee, un réacteur à flux laminaire à deux étages a été mis en place pour mesurer leurs constantes de vitesse de réaction avec SO2, NO2 et O3. Partie B : les impacts du “black carbon (BC)” et du “brown carbon (BrC)” constituent une incertitude majeure dans les modèles climatiques actuels. Des rapports récents indiquent que la morphologie et l’évolution des BC et BrC dans l’atmosphère jouent un rôle important sur la capacité d’absorption de ces particules. Afin d’étudier leurs comportements, des mélanges de particules (BC-BrC) ont été exposés en chambre de simulation atmosphérique à l'acide sulfurique, au mélange ammoniac / triéthylamine, et à la vapeur d'eau de manière séquentielle. / In this thesis, we present a complementary work conducted at ICARE-CNRS (Orléans), Part A and at Fudan University (Shanghai), Part B. Part A: 2-and 3-carene are two important biogenic volatile organic compounds present in the atmosphere. The knowledge on their degradation pathways and the corresponding products are still poor. Using complementary reaction systems-ICARE 7300 L and HELIOS 80000 L simulation chambers, vertical laminar flow reactor, their kinetic rate constants for reaction with ozone were determined. Additionally, important product formation yields, hydroxyl radical (OH), formaldehyde (HCHO) and carbon monoxide (CO) have been determined with indication to their corresponding formation routes from the ozonolysis of carene. To have a better understanding on reactions of Criegee intermediates (CIs) generated through ozonolysis in the atmosphere, a horizontal 2-stage laminar flow reactor was set up to measure the rate constants of CIs with SO2, NO2 and O3. Part B: Radiative forcing of black carbon (BC) in the atmosphere, as well as that of brown carbon (BrC), remains to be a major uncertainty in current climate models. Recent reports indicate that the absorption enhancement of BC and BrC particles is determined by evolution of morphology and mixing state during the atmospheric processing. Laboratory-generated BC-BrC mixture particles (BC-BrC) were exposed to sulfuric acid, ammonia/triethylamine, and water vapor sequentially to investigate the alternation in light absorption, morphology and mixing state during simulated atmospheric processing.

Chimie atmosphérique

Ozonolyse

Intermédiaire de Criegee

Carbone noir

Carbone brun

Surface de réaction

Absorption de la lumière

Atmospheric chemistry

Biogenic volatile organic compounds

Ozonolysis

Criegee intermediates

Black carbon

Brown carbon

Surface reaction

Light absorption

628.53

Partikelbildung bei der Alkenozonolyse und ihre Kopplung an die Radikalchemie / Particle formation during the ozonolysis of alkenes and its interconnection with radical chemistry

Keunecke, Claudia

11 May 2012

No description available.

540 Chemie

SD 000

SGE 300

SGE 450

Chemistry

Ozonolyse

FTIR-Spektroskopie

Gasphasenprodukte

Kinetik

Partikelbildung

Schwefelsäure

Hexen

Butensäure

α-Pinen

β-Pinen

4-Penten-1-ol

3-Buten-1-ol

1-Penten-3-ol

1-Penten-3-on

4-Pentenal

ozonolysis

FTIR-spectroscopy

gas phase products

kinetics

particle formation

sulfuric acid

hexene

butenoic acid

α-pinene

β-pinene

4-penten-1-ole

3-buten-1-ole

1-penten-3-ole

1-penten-3-one

35.22

58.14

38.81

35.25