Molecular complexes for artificial photosynthesis / Complexes moléculaires pour la photosynthèse artificielle

Ro, Youngju

06 November 2019

Le développement de sources d’énergie renouvelables telles que les combustibles solaires est une question cruciale dans le contexte actuel du réchauffement de la planète. L'eau est une source abondante, respectueuse de l'environnement, bon marché et abondante en électrons et en protons nécessaires à la production de combustible. Par conséquent, l'oxydation de l'eau activée par la lumière est une étape clé de la photosynthèse artificielle et le développement de catalyseurs efficaces, robustes et durables constitue un objectif important pour les chimistes. Dans la première partie de cette étude, nous nous concentrons sur le développement de tels catalyseurs basés sur des complexes métalliques à base de métaux de la première série des éléments de transition tel que le cuivre pour cette étude. L'électrocatalyse et la photocatalyse par oxydation de l'eau ont été étudiées. La deuxième partie du travail concerne la formation de paires d'ions entre les espèces à double charge opposée du catalyseur complexe et de l'accepteur d'électrons et du photosensibilisant et du catalyseur complexe. Cette étude devrait apporter des preuves solides de l'influence de chaque composant du photosystème par l'association et la dissociation de paires d'ions.Dans la troisième partie, nous étudions un système synthétique sensibilisant-catalyseur capable de photoactiver une molécule d’eau liée à l’unité catalytique par le biais d’une oxydation à deux électrons et à deux protons, réalisant toute la caractérisation photophysique de la dyade. Par conséquent, l’étude des complexes moléculaires pour la photosynthèse artificielle fournit diverses orientations pour développer le rendement d’utilisation de l’énergie solaire. / Development of renewable energy sources like solar fuels is a crucial issue in the actual context of global warming. Water is an environmentally friendly, cheap and abundant source of the electrons and protons needed for fuel production. Therefore, light-activated water oxidation is a key step in artificial photosynthesis and the development of efficient, robust and sustainable catalysts is an important goal for chemists. In the first part of this study, we focus on the development of such catalysts based on earth abundant copper complexes. The water oxidation electrocatalysis and photocatalysis were investigated. The second part of the work concerns the ion pair formation between the oppositely double charged species of complex catalyst and electron acceptor and Photosensitizer and complex catalyst are investigated. This study should bring solid evidence on the influence of each component in photosystem through the ion pair association and dissociation. In the third part, we study a synthetic sensitizer-catalyst system that can photoactivate a water molecule bound to the catalytic unit through a two-electron, two-proton abstraction, performed all the photophysical characterization of the dyad. Therefore, studying molecular complexes for artificial photosynthesis provides diverse direction to develop the utilization efficiency of solar energy.

Photosynthèse artificielle

Transfert électron photo-Induit

Oxydation de l'eau

Paire d'ions

Transfert électron

Artificial photosynthesis

Photo-Induced electron transfer

Water oxidation

Ion pair

Electron transfer

Addition stéréosélective de nucléophiles sur un centre acétal : synthèse de nucléosides 1’,2’-cis

St-Jean, Olivier

04 1900

Plusieurs analogues de nucléosides thérapeutiques (Ara-C, Clofarabine), utilisés pour le traitement de leucémies, présentent un arrangement 1’,2’-cis entre la nucléobase reliée au centre anomère et le substituant (électroattracteur) en C-2’. Récemment, notre laboratoire a développé une approche synthétique pour former sélectivement des analogues de nucléosides et de thionucléosides 1’,2’-trans et 1’,2’-cis à partir de précurseurs acycliques. Ce mémoire présente une nouvelle méthodologie pour accéder efficacement aux analogues de nucléosides 1’,2’-cis à partir de furanosides. Différents groupements en position anomérique ont été examinés, sous conditions cinétiques en utilisant le bromure de diméthylbore pour générer sélectivement des produits acycliques ou cycliques. Les intermédiaires cinétiques de différents furanosides de méthyle formés en présence de Me2BBr ont été piégés in situ par un thiol pour générer des thioacétals acycliques avec de bonnes voire d’excellentes diastéréosélectivités. Les produits générés sont en accord avec une rétention globale de l’information stéréochimique du centre acétal et deux déplacements SN2 consécutifs ont été suggérés pour rationaliser ces résultats. Toutefois, l’objectif de synthétiser des analogues de nucléosides à partir de furanosides de méthyle a échoué. Tel que démontré par le Dr Michel Prévost, l’activation par Me2BBr des lactols des quatres différents furanosides suivie d’une addition in situ d’une base silylée a permis de former diastéréosélectivement les analogues de nucléosides 1’,2’-cis correspondants avec d’excellents rendements. Nous avons démontré que d’autres substrats peuvent être employés et que l’induction stéréochimique est sous contrôle du substituant électroattracteur en C-2. D’autres acides de Lewis, tel que TMSBr, peuvent également être utilisés. Cette méthodologie a également été étendue à d’autres nucléophiles tels que des Grignards ou des éthers d’énols silylés, conduisant à de bonnes sélectivités. / Many therapeutically relevant nucleoside analogs (Ara-C, Clofarabine) for the treatment of leukemia have a 1’,2’-cis arrangement between the nucleobase attached at the anomeric center and the non-hydrogen substituent at C-2’. Recently, our laboratory has developed a versatile approach to the synthesis of 1’,2’-trans and 1’,2’-cis nucleoside and thionucleoside analogues from acyclic scaffolds. This work will present a new methodology to access efficiently 1’,2’-cis nucleoside analogues from cyclic furanoside. Activation of various anomeric groups by Me2BBr was investigated, and under kinetic control acyclic substrates or cyclic ones could be generated selectively. Trapping the kinetic product of methyl furanoside formed in presence of Me2BBr by thiol in the presence of base led to the formation of acyclic thioacetal in good to excellent diastereoselectivity. The results obtained are in accordance with total retention of the stereochemical information of the acetal moiety and thus suggested that the mechanism of these two reactions is two successive SN2 displacements. The objective of synthesizing nucleoside analogs from methyl furanoside was unsuccessful. As shown recently by Dr Michel Prévost, activation of all four furanoside lactol scaffolds by Me2BBr with an in situ addition of silylated nucleobase afforded 1’,2’-cis pyrimidine nucleoside analogues in very good yields and with diastereoselectivities greater or equal to 20:1. Expending this methodology to other scaffolds provided evidence of stereoelectronic control of the C-2 electron-withdrawing substituent. Other Lewis acids such as TMSBr can be used. This methodology was also applied to other nucleophiles such as allyl Grignard and silylated enols ethers, which were successfully alkylated in good yield and 1,2-cis diastereoselectivity.

Oxocarbénium

Paire d’ions intime

Acide de Lewis

SN2

Clivage endocyclique

Acétal

Effet anomérique

Lactol

Analogues de nucléosides

Oxocarbenium

Ion pair

Lewis acid

SN2

Endocyclic cleavage

anomeric effect

Nucleoside analogues

Mechanisms of the Intriguing Rearrangements of Activated Organic Species

Harman, David Grant, harmandg@hotmail.com

January 2003

The β-acyloxyalkyl radical rearrangement has been known since 1967 but its mechanism is still not fully understood, despite considerable investigation. Since the migration of a β-trifluoroacetoxy group generally proceeds more rapidly and with more varied regiochemistry than its less electronegative counterparts, this reaction was studied in the hope of understanding more about the subtleties of the mechanism of the β- acyloxyalkyl radical rearrangement. The mechanism of the catalysed rearrangement of Nalkoxy- 2(1H)-pyridinethiones was also explored because preliminary studies indicated that the transition state (TS) for this process was isoelectronic with TSs postulated for the β-acyloxyalkyl radical and other novel rearrangements. ¶ A kinetic study of the rearrangement of the 2-methyl-2-trifluoroacetoxy-1-heptyl radical in solvents of different polarity was undertaken using a radical clock method. Arrhenius equations for the rearrangement in each solvent were: hexane, log10[kr (s-1)] = 11.8±0.3 – (48.9±0.7)/ θ; benzene, log10[kr (s-1)] = 12.0±0.2 – (43.7±0.8)/ θ; and propionitrile, log10[kr (s-1)] = 11.9±0.2 – (42.0±0.3)/ θ. Rate constants at 75˚C were: hexane, kr = 2.9 × 104; benzene, kr = 2.8 × 105; and propionitrile, kr = 4.0 × 105 s-1. The equilibrium constant for the reversible rearrangement at 80°C in benzene was 15.1 <K < 52.9. ¶ A regiochemical study with oxygen-labelled radicals revealed that trifluoroacetoxy group migration occurs with 66-83% label transposition (3,2 shift). The proportion of 3,2 shift is decreased by polar solvent, high temperature and low concentration of the reducing agent. Results of labelling experiments were consistent with cooperative 1,2 and 3,2 shifts, the former having Ea 9.5 kJmol-1 higher than the latter in benzene solution. ¶ An esr study of nine β-oxygenated radicals revealed that the temperaturedependent equilibrium conformation is controlled by a balance between steric and stereoelectronic effects. The influence of the latter is increased by electron-attracting β- substituents. Barriers to C α–C β rotation in β-oxyethyl radicals are approximately the same as for the propyl radical. Consequently, there is no significant through-space interaction between the β-substituent and the unpaired electron. ¶ Experimental results were consistent with a mechanism involving a combination of polarized 1,2 and 3,2 concerted shifts. The results may also be rationalised by the intermediacy of a contact ion pair, as well as combinations of the three options. ¶ The rearrangement of N-alkoxy-2(1H)-pyridinethiones is catalysed by oxidants, Lewis acids and protic acids. Pseudo first order kinetics are observed and there are moderate solvent effects. The migration of a 1,1-dideuteroallyl group occurs almost exclusively in a 1,4 sense. Migration of an enantiomerically enriched 1-phenylethyl group proceeds with predominant retention of configuration in chloroform, but with virtual racemisation in acetonitrile. Migrating groups do not become diffusively free during the rearrangement. Substituents which stablise positive charge at C1 migrate more rapidly. The bulk of evidence indicates that a catalyst activates the pyridinethione for rearrangement by promoting aromatisation. Mass-spectrometric analysis of an isolated intermediate and kinetic results are consistent with an intermolecular mechanism.

mechanism

rearrangement

activated

organic

radical

β-acyloxyalkyl

kinetics

labelling

esr

pyridinethione

N-alkoxy-2(1H)-pyridinethione

2-(alkylsulfanyl)pyridine N-oxide

radical ion pair

tin hydride

tributylstannane

conformation

trifluoroacetate

electronic effects

17-O nmr

Addition stéréosélective de nucléophiles sur un centre acétal : synthèse de nucléosides 1’,2’-cis

St-Jean, Olivier

04 1900

Plusieurs analogues de nucléosides thérapeutiques (Ara-C, Clofarabine), utilisés pour le traitement de leucémies, présentent un arrangement 1’,2’-cis entre la nucléobase reliée au centre anomère et le substituant (électroattracteur) en C-2’. Récemment, notre laboratoire a développé une approche synthétique pour former sélectivement des analogues de nucléosides et de thionucléosides 1’,2’-trans et 1’,2’-cis à partir de précurseurs acycliques. Ce mémoire présente une nouvelle méthodologie pour accéder efficacement aux analogues de nucléosides 1’,2’-cis à partir de furanosides. Différents groupements en position anomérique ont été examinés, sous conditions cinétiques en utilisant le bromure de diméthylbore pour générer sélectivement des produits acycliques ou cycliques. Les intermédiaires cinétiques de différents furanosides de méthyle formés en présence de Me2BBr ont été piégés in situ par un thiol pour générer des thioacétals acycliques avec de bonnes voire d’excellentes diastéréosélectivités. Les produits générés sont en accord avec une rétention globale de l’information stéréochimique du centre acétal et deux déplacements SN2 consécutifs ont été suggérés pour rationaliser ces résultats. Toutefois, l’objectif de synthétiser des analogues de nucléosides à partir de furanosides de méthyle a échoué. Tel que démontré par le Dr Michel Prévost, l’activation par Me2BBr des lactols des quatres différents furanosides suivie d’une addition in situ d’une base silylée a permis de former diastéréosélectivement les analogues de nucléosides 1’,2’-cis correspondants avec d’excellents rendements. Nous avons démontré que d’autres substrats peuvent être employés et que l’induction stéréochimique est sous contrôle du substituant électroattracteur en C-2. D’autres acides de Lewis, tel que TMSBr, peuvent également être utilisés. Cette méthodologie a également été étendue à d’autres nucléophiles tels que des Grignards ou des éthers d’énols silylés, conduisant à de bonnes sélectivités. / Many therapeutically relevant nucleoside analogs (Ara-C, Clofarabine) for the treatment of leukemia have a 1’,2’-cis arrangement between the nucleobase attached at the anomeric center and the non-hydrogen substituent at C-2’. Recently, our laboratory has developed a versatile approach to the synthesis of 1’,2’-trans and 1’,2’-cis nucleoside and thionucleoside analogues from acyclic scaffolds. This work will present a new methodology to access efficiently 1’,2’-cis nucleoside analogues from cyclic furanoside. Activation of various anomeric groups by Me2BBr was investigated, and under kinetic control acyclic substrates or cyclic ones could be generated selectively. Trapping the kinetic product of methyl furanoside formed in presence of Me2BBr by thiol in the presence of base led to the formation of acyclic thioacetal in good to excellent diastereoselectivity. The results obtained are in accordance with total retention of the stereochemical information of the acetal moiety and thus suggested that the mechanism of these two reactions is two successive SN2 displacements. The objective of synthesizing nucleoside analogs from methyl furanoside was unsuccessful. As shown recently by Dr Michel Prévost, activation of all four furanoside lactol scaffolds by Me2BBr with an in situ addition of silylated nucleobase afforded 1’,2’-cis pyrimidine nucleoside analogues in very good yields and with diastereoselectivities greater or equal to 20:1. Expending this methodology to other scaffolds provided evidence of stereoelectronic control of the C-2 electron-withdrawing substituent. Other Lewis acids such as TMSBr can be used. This methodology was also applied to other nucleophiles such as allyl Grignard and silylated enols ethers, which were successfully alkylated in good yield and 1,2-cis diastereoselectivity.

Oxocarbénium

Paire d’ions intime

Acide de Lewis

SN2

Clivage endocyclique

Acétal

Effet anomérique

Lactol

Analogues de nucléosides

Oxocarbenium

Ion pair

Lewis acid

SN2

Endocyclic cleavage

anomeric effect

Nucleoside analogues

A Comparative Analysis of Per- andPolyfluoroalkyl Substances (PFAS) and ExtractableOrganofluorine (EOF) Using Solid PhaseExtraction-Weak Anion Exchange and Ion PairExtraction in SerumMarichal SalamehSpring 2021Independent project

Salameh, Marichal

January 2021

Per- and polyfluorinated substances (PFAS) are compounds that consist of a carbon chainbackbone that is partially or entirely fluorinated, with an addition of a functional group. SomePFAS are known as persistent organic pollutants (POPs) and have therefore been drawing a lot ofattention as well as increased concerns. PFAS have been detected in humans, wildlife and theenvironment and some have exhibited toxic effects such as hepatotoxicity, immunotoxicity,reproductive toxicity and endocrine disruption as well as being persistent and bioaccumulative.Serum, plasma and whole blood have been used as biomonitoring matrices in many studies toevaluate human exposure to PFAS. Restrictions have been applied to some PFAS, but thesecompounds are still ubiquitous. This study will investigate the performance (recovery, matrixeffect (ME) in terms of intra-/inter-day repeatability) of ion-pair extraction (IPE) and solid phaseextraction with weak anion exchange (SPE-WAX). The extraction methods were adapted fromliterature and 13 PFAS were selected for this work based on prior biomonitoring studies. Thetarget PFAS content was analyzed with liquid chromatography coupled with tandem massspectrometry (LC-MS/MS). The extraction methods were also compared for extractableorganofluorine (EOF) extraction in terms of blank levels as well as the amount extracted withdifferent methods; the EOF content was measured with combustion ion chromatography (CIC).The EOF levels were used to estimate the amount of unidentified organofluorine (UOF), to avoidunderestimating potential health hazards. Samples extracted using IPE had an average ionizationenhancement of 9%, while SPE-WAX showed an average ionization suppression of -1%. SPEWAXshowed higher average recoveries for procedural blanks (78%), horse serum (96%) andhuman serum (95%) in comparison to IPE (69%, 36%, 88%, respectively). The CIC analysis forEOF content was observed to be below MDL (&lt;50 ng/mL F) with some contaminations observedin the procedural blanks.

Extractable organofluorine (EOF)

horse serum

human serum

ion pair extraction (IPE)

combustion ion chromatography (CIC)

Chemical Sciences

Kemi

Využití kapalinové chromatografie ve farmaceutické analýze a příprava monolitických stacionárních fází pro tenkovrstvou chromatografii / Use of liquid chromatography in pharmaceutical analysis and preparation of monolithic stationary phases for thin-layer chromatography

Vojta, Jiří

January 2015

(EN) In the first part of this work, analytical methods for determination of impurities of active pharmaceutical ingredients (API) in combined pharmaceutical dosage forms were developed and validated. Development of the methods covered both the optimization of sample preparation procedure and chromatographic conditions. The methods were validated according to International Conference on Harmonization guideline and both of them were confirmed to be able to analyze stability samples. Impurities in paracetamol, codeine phosphate hemihydrate and pitophenone hydrochloride in the presence of fourth API fenpiverinium bromide were separated by using ion-pair reversed phase chromatography with gradient elution. Symmetry C18, 250 x 4,6 mm, 5 µm heated to 35 řC was used as a separation column. A diode array detector was used. The detection wavelengths were set as follows: 220 nm for paracetamol impurity K, 245 nm for paracetamol and its other impurities and 285 nm for codeine, pitophenone and their impurities. Impurities in valsartan, amlodipine besylate and hydrochlorothiazide were separated by reversed phase UHPLC method with gradient elution. Chromatographic column Zorbax Eclipse C8 RRHD, 100 x 3,0 mm, 1,8 µm heated to 30 řC and spectrophotometric detection were used. The detection wavelengths were set as...