Hidrocarbonetos no sedimento superficial do sistema estuarino do Rio Formoso, nordeste do Brasil

CRAVEIRO, Nykon

14 July 2016

Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-02-16T14:23:09Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) DISSERTACAO-NYKON_CRAVEIRO_BIBLIOTECA-COMPLETA_SemAssinaturas.pdf: 2023918 bytes, checksum: ae7ded82175a687652e553dbed943897 (MD5) / Made available in DSpace on 2017-02-16T14:23:09Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) DISSERTACAO-NYKON_CRAVEIRO_BIBLIOTECA-COMPLETA_SemAssinaturas.pdf: 2023918 bytes, checksum: ae7ded82175a687652e553dbed943897 (MD5) Previous issue date: 2016-07-14 / CNPq / A contaminação por hidrocarbonetos (HCs) do petróleo em regiões costeiras marinhas, como os estuários, é considerada uma das mais importantes e impactantes, devido aos danos que esses elementos podem ocasionar aos organismos e ao homem. O objetivo do presente estudo foi investigas, pela primeira vez, os hidrocarbonetos nos sedimentos superficiais do sistema estuarino do Rio Formoso (SERF), litoral Sul do estado de Pernambuco – Brasil. Os compostos de hidrocarbonetos alifáticos (HAs) foram determinados em cromatógrafo a gás (GC) Agilent Tecnologies 7820A, acoplado a um detector de ionização de chamas (DIC) e os compostos de hidrocarbonetos policíclicos aromáticos (HPAs) foram determinados no mesmo cromatógrafo, porém acoplado a um espectrômetro de massas 5975 (MS) em modo de monitoramento de íons selecionados (SIM). A concentração de alifáticos totais (∑Alif) nos sedimentos do SERF variou entre 1,37 e 126,64 μg g-1 peso seco (ps), com as concentrações de n-alcanos totais (Σn-Alc) entre 0,51 e 27,5 μg g-1 ps, oriundos principalmente de fontes biogênicas, como vegetais superiores. A concentração de HPAs (Σ16HPAs) variou entre 3,80 e 500,3 ng g-1 ps, provenientes de fontes petrogências e pirogênicas As concentrações de hidrocarbonetos alifáticos e aromáticos detectados nos sedimentos do sistema estuarino do Rio Formoso foram consideradas baixas, quando comparadas com outras áreas estudadas ao redor do mundo e aos índices propostos por estudos e agências reguladoras nacionais e internacionais, sugerindo um ambiente com pouco impacto sobre a biota. Contudo, a presença de compostos como HPAs é um indicativo de ação antrópica sobre o sistema, sendo importante a implantação e manutenção de um programa de monitoramento na área, quanto aos hidrocarbonetos, para avaliar os possíveis impactos que a presença desses compostos possam ocasionar sobre o SERF e garantir a conservação continuada de um estuário de tamanha importância ecológica, econômica e social. / The contamination by hydrocarbons (HCs) of oil in marine coastal regions, such as estuaries, is considered one of the most important and impactful due to the damage that these elements may cause to the bodies and man. The aim of this study was investigas for the first time, the hydrocarbons in the surface sediments of the estuarine system of the Formoso river (SERF), South coast of the state of Pernambuco - Brazil. Aliphatic hydrocarbon compounds (HAs) were determined on a gas chromatograph (GC) Agilent Technologies 7820A coupled to a flame ionization detector (FID) and polycyclic aromatic hydrocarbon compounds (PAH) were determined in the same chromatograph, however coupled a mass spectrometer 5975 (MS) in selected ion monitoring mode (SIM). The concentration of total aliphatic (ΣAlif) in SERF sediments ranged between 1.37 and 126.64 μg g-1 dry weight (dw), with total n-alkanes concentrations (Σn-Alc) between 0.51 and 27.5 μg g-1 dw, mainly from biogenic sources such as higher plants. The concentration of PAHs (Σ16HPAs) ranged from 3.80 to 500.3 ng g-1 dw, from petrogências sources and pyrogenic Hydrocarbon concentrations aliphatic and aromatic detected in the sediments of the estuarine system of the Formoso river were considered low compared with other areas studied around the world and the indices proposed by studies and national and international regulatory agencies, suggesting an environment with little impact on the biota. However, the presence of compounds such as PAHs is indicative of human action on the system, it is important to establishing and maintaining a monitoring program in the area, as hydrocarbons, to assess the possible impact that the presence of these compounds can cause on SERF and ensure the continued conservation of an estuary of such ecological, economic and social.

hidrocarboneto alifático

hidrocarboneto aromático

HPA

n-alcano

sedimento

sistema estuarino do Rio Formoso

aliphatic and aromatic hydrocarbons

PAHs

n-alkenes

sediment

estuarine system of Formoso River

Fatty acids as a source of original aliphatic polycarbonate materials / Les acides gras comme source de matériaux polycarbonates aliphatiques originaux

Durand, Pierre-Luc

27 October 2017

Cette thèse porte sur la valorisation de dérivés d’acides gras dans l’objectif d’élaborer des matériaux polycarbonates aliphatiques (PCAs) bio-sourcés originaux. Dans cette optique, deux plateformes de carbonates cycliques à 6 chaînons (6CCs) ont été synthétisés en utilisant des voies d’accès impliquant soit la formation d’un intermédiaire de type malonate ou un couplage entre un acide gras et le 2-amino-1,3-propanediol. La polymérisation par ouverture de cycle de ces monomères a été étudiée. La première plateforme de 6CCs a été polymérisée en présence de Sn(Oct)2 comme catalyseur, donnant accès à des polycarbonates de faible Tg allant de -61°C jusqu’à-26°C du fait de longues chaines latérales pendantes. La polymérisation de la seconde plateforme de6CCs a été effectuée de manière contrôlée en utilisant un système catalytique composé de la DBU et d’une thio-urée. Tirant profit de ces polycarbonates aliphatiques bio-sourcés linéaires porteurs d’insaturations, des matériaux originaux réticulés ont été synthétisés. Plusieurs méthodes de réticulation ont été testées telles que le couplage thiol-ène irréversible, la réaction de Diels-Alder thermo-réversible et la cyclo-addition photo-réversible [2+2] entre deux groupements cinnamate.Ainsi, des PCAs réticulés issus d’acides gras ont été synthétisés et caractérisés; ces derniers possèdent des propriétés physico-chimiques modulables selon la nature des monomères de départ etla densité de réticulation des réseaux. / Fatty acids were derivatized with the objective to design bio-based aliphatic polycarbonate(APC) materials. To that purpose, two platforms of lipidic 6-membered cyclic carbonates were prepared following synthetic routes either involving the ring-closure of a malonate intermediate or the coupling reaction between a fatty acid and 2-amino-1,3-propanediol. The ring-openingpolymerization (ROP) of these cyclic carbonates was next investigated. The first platform of 6CCswas polymerized in the presence of Sn(Oct)2 as catalyst, yielding low Tg aliphatic polycarbonates ranging from -61°C to -26°C with respect to the size of the pendant aliphatic side chains. The polymerization of the second lipidic 6CC platform was performed in a controlled fashion using DBU/Schreiner thiourea as catalytic system. Taking advantage of the presence of unsaturation functions on the linear bio-based APCs, cross-linked polycarbonate materials were then prepared.Several cross-linking methods were tested such as the irreversible thiol-ene coupling, the thermoreversible Diels-Alder reaction and the photo-reversible [2+2] cyclo-addition reaction between two cinnamate moieties. Fatty acid-based cross-linked APCs were thus designed and characterized; the latter exhibit tunable physico-chemical properties as a function of the monomer structure and the cross-linking density.

Carbonates cycliques

Acides gras

Polymérisation par ouverture de cycle

Polycarbonates aliphatiques

Réticulation.

Cyclic carbonates

Fatty acids

Ring-opening polymerization

Aliphatic polycarbonates

Cross-linking

Nitro-assisted Brønsted acid catalysis : activation of C(sp3)–O and C(sp3)–F bonds / Catalyse par un acide Brønsted assistée par les composés nitro : activation des liaisons C(sp3)–O and C(sp3)–F

Dryzhakov, Marian

17 March 2016

Les alcools sont des partenaires électrophiles attractifs pour des réactions de substitution nucléophile puisque l'eau est le seul sous-produit de la réaction en présence de nucléophiles protiques. Malgré le fait que la réaction soit fortement intéressante, la portée des transformations catalytique reste limitée à une combinaison spécifique alcool/nucléophile, ce qui rend l’emploi d’un ensemble général de conditions catalytiques fortement élusif. Cette thèse décrit le développement d'un système général de catalyse doux pour l'activation d'une large gamme d’alcools π-activés ainsi que d’alcools aliphatiques abordant ainsi les limitations clés dans le domaine. B(C6F6)3•H2O, un acide de Brønsted fort quand il est combiné avec le nitrométhane, a été découvert comme étant un système catalytique idéal pour la substitution chimiosélective d'alcools en présence de fonctionnalités et de groupements protecteurs sensibles aux conditions acides sans le compromis typique entre vitesse de réaction, réactivité substrat/nucléophile et quantité de catalyseur. Plus particulièrement, un effet co-catalytique de composés nitro est décrit pour la réaction d’azidation des alcools aliphatiques tertiaires en employant B(C6F6)3•H2O, permettant, pour la première fois, un turnover catalytique. Sur la base des investigations cinétiques, électroniques et spectroscopiques qui ont été menées, des agrégats de composés nitro et d’acides liés par des intéractions hydrogènes sont proposé comme étant l’espèce catalytiques responsables de la cinétique de la catalyse observée. L'utilité des nouvelles conditions catalytiques a été étendue au-delà de l'activation d'alcool et appliquée au clivage des liaisons fortes C-F dans les réactions de Friedel-Crafts défluorinatives de fluorures aliphatiques tertiaires. / Alcohols are attractive electrophilic partners for nucleophilic substitution reactions as water is the only by-product in a reaction with protic nucleophiles. Despite being a highly desirable reaction, the scope of useful catalytic transformations remains limited to specific alcohol-nucleophile pairs and a general set of catalytic conditions remains elusive. This thesis describes the development of a general and mild catalyst system for the activation of a broad range of π-activated and aliphatic alcohols to address key limitations in the field. B(C6F6)3•H2O, a strong Brønsted acid, when combined with nitromethane has been found as a widely useful catalyst system for chemoselective alcohol substitution in the presence of acid sensitive functionalities and protecting groups without the typical compromises in reaction rates, substrate/nucleophile scope and catalyst loading. In particular, a co-catalytic effect of nitro compounds is described for the B(C6F6)3•H2O catalyzed azidation of tertiary aliphatic alcohols, enabling catalyst turnover for the first time. On the basis of kinetic, electronic, and spectroscopic investigations, higher order hydrogen-bonded aggregates of nitro compounds and acids are proposed as kinetically competent Brønsted acid catalysts at the origin of the enhanced reactivity. The utility of the new catalytic conditions has been extended beyond alcohol activation and applied to the cleavage of strong C–F bonds in defluorinative Friedel-Crafts reactions of tertiary aliphatic fluorides.

Activation d’alcool

Catalyse par un acide de Brønsted

Composés nitro

Fluorures aliphatiques tertiaires

Alcohol activation

Brønsted acid catalysis

Nitro compounds

Tertiary aliphatic fluorides

547.2

New methodologies for the introduction of the SCF3 and Cl groups by C(sp3)-H bond functionalization and the design of original fluorinated electrophilic reagents / Nouvelles méthodologies pour l'introduction des groupements SCF3 et CI par la fonctionnalisation de liaisons C(sp3)-H et l'élaboration de réactifs électrophiles fluorés originaux

Xiong, Heng-Ying

22 March 2017

Le domaine de recherche de la chimie du fluor a connu un essor considérable. En particulier, le motif SCF3 et plus récemment les groupements SCF2R (R = H, SO2Ph, SAr, COAr, Rf) ont fait l'objet d'une attention particulière de la part de la communauté scientifique du fait de leurs propriétés remarquables. Dans ce contexte, le développement de nouvelles méthodologies et de réactifs originaux pour l'introduction de ces groupements fluorés a suscité un fort intérêt. En conséquence, les objectifs de cette thèse ont été 1) de développer de nouvelles méthodologies pour la fonctionnalisation de liaisons C(sp3)-H par l'introduction directe d'un motif SCF3 catalysée par des métaux de transition, et son extension à d'autres groupements fonctionnels ainsi que 2) de concevoir et étudier de nouveaux réactifs fluorés électrophiles. La première partie de cette thèse a été dédiée au développement d'une réaction de trifluorométhylthiolation d'amides aliphatiques catalysée au palladium, une transformation inédite (Chapitre 2). Puis, la chloration d'amides aliphatiques catalysée au palladium, dans des conditions douces, a été étudiée (Chapitre 3). Enfin, une nouvelle voie de synthèse pour accéder aux sulfénamides trifluorométhylés a été développée (Chapitre 4). Cette approche a été étendue à la préparation d'un nouveau réactif électrophile pour l'introduction du groupement SCN. De plus, un réactif électrophile original, source du motif SCF2PO(OEt)2, a été synthétisé et appliqué à la construction de liaisons C-SCF2PO(OEt)2, N-SCF2PO(OEt)2 et S-SCF2PO(OEt)2 ainsi qu'à la synthèse d'un composé d'intérêt biologique (Chapitre 4). / The organofluorine chemistry field has witnessed a very fast expansion. In particular, the SCF3 moiety and more recently the SCF2R groups (R = H, SO2Ph, SAr, COAr, Rf) have attracted a special interest from the scientific community because of their remarkable properties. In this context, the development of new methodologies and original reagents for the introduction of such fluorinated groups is particularly appealing. Therefore, the goals of this thesis were 1) to develop a new methodology for the direct introduction of the SCF3 group by transition metal-catalyzed C(sp3)-H bond functionalization and its extension to other functional groups as well as 2) to design and study new electrophilic fluorinated reagents.The first part of this Ph.D. thesis was dedicated to the development of an unprecedented Pd-catalyzed trifluoromethylthiolation of aliphatic amides by C-H bond functionalization (Chapter 2). Then, the Pd-catalyzed chlorination of aliphatic amides by C-H bond functionalization under mild conditions was investigated (Chapter 3). Finally, a newly designed strategy for the synthesis of trifluoromethanesulfenamides was elaborated (Chapter 4). This approach was extended to the preparation of a new electrophilic reagent for the thiocyanation reaction. In addition, an original electrophilic SCF2PO(OEt)2 reagent was designed and applied to the construction of C-SCF2PO(OEt)2, N-SCF2PO(OEt)2 and S-SCF2PO(OEt)2 bonds as well as to the synthesis of a biorelevant compound (Chapter 4).

Fonctionnalisation de liaisons C-H

Trifluoromethylthiolation

Amides aliphatiques

Réactifs électrophiles originaux

Réactif de thiocyanation

C-H bond functionalization

Aliphatic amides

Chlorination

Original electrophilic reagents

Thiocyanating reagent

Toxicity of aliphatic amines on the embryos of zebrafish Danio rerio - experimental studies and QSAR: experimental studies and QSAR

Brust, Kristin

05 June 2002

The toxicity of 36 aliphatic amines on the embryos of the zebrafish Danio rerio were investigated. The DarT (Danio rerio Toxicity assay) was used to determine the lethal concentrations within a 48 h static acute toxicity test. A QSAR (Quantitative Structure-Activity Relationship) was performed using the LC50 values and molecular descriptors such as lipophilicity, maximum positive charge on hydrogen atom and the effective diameter of the molecule. In general, the toxicity of primary and secondary amines could be described by the lipophilicity as descriptor. The toxicity of the tertiary amines tested could be only described by a bilinear regression model. Further, regression models for other aquatic species such as the fathead minnow Pimephales promelas, Daphnia magna and Tetrahymena pyriformis showed that the toxicity of each species is a good predictor for each other.

info:eu-repo/classification/ddc/32

ddc:32

Greener Water Repellency? Feasible alternatives to fluoro chemicals for DWOR treatments on textiles

Åkerblom, Denize, Göranzon, Erik

January 2014

BACKGROUND: Perfluorinated compounds (PFCs) have been used as durable water and oil repellent treatments in clothing for more than 50 years. The reason for its popularity is related to the chemical structure, which also makes these compounds persistent in the environment. Numerous studies have shown negative environmental and health effects related to high concentrations of perfluorinated compounds in blood serum. Due to these studies, this paper aimed to find out if perfluorinated compounds could be replaced by non-perfluorinated without compromising performance related to water and oil repellency. METHODOLOGY: A reference sample impregnated with fluorocarbons was compared with the following non-perfluorinated treatments, aliphatic polyurethane (comb polymer) organic silicone and acid (comb polymer) and hydrocarbon (dendrimer). Impregnations were subjected to abrasion, UV-radiation and washing and after each destructive treatment; oil and water repellency tests were conducted. The environmental and health effect of all treatments were examined in a theoretical study. RESULTS: Due to difficulties with the impregnation process, comparable results could only be concluded with the perfluorinated and the hydrocarbon compound. The hydrocarbon was superior the perfluorinated compound to abrasion but for usage simulation methods that allowed chemical reactions, hence UV-radiation and washing, the fluorocarbons showed better resistance. CONCLUSION: Results show that the hydrocarbon treatment could replace perfluorinated treatments commercially when only water and not oil repellency is required. The alternative treatments in this study are not yet sufficiently examined with respect to environmental and health and can therefore not be called greener with certainty. / Program: Textilingenjörsutbildningen

Water and oil repellent

treatments

water and oil repellency

DWR

DWOR

perfluorinated compounds

PFCs

perfluorooctanoic acid

PFOA

perfluorooctane sulfonates

PFOS

dendrimers

organic silicon

hydrocarbon

hydrocarbon

aliphatic polyurethane

textiles

outdoor clothing

performance

UV-radiation

Martindale

washing

Engineering and Technology

Teknik och teknologier

Towards new catalytic systems for the formation of methyl methacrylate from methyl propanoate

Coetzee, Jacorien

January 2011

The two stage Lucite Alpha Process for the industrial manufacturing of methyl methacrylate (MMA) represents one of the most efficient technologies currently available for the large scale production of this important chemical commodity. The second stage of this process, which involves the condensation of methyl propanoate (MeP) with formaldehyde over a heterogeneous fixed bed catalyst, however, still shows great scope for improvement. Herein the development of a novel homogeneous catalytic system that would promote the condensation of either propanoic acid or MeP with formaldehyde is explored. Since C–C bond forming reactions which proceed via C–H activation pathways typically display high atom efficiency, our efforts were particularly focussed on employing a functionalisation strategy that is mediated by C–H activation. In the case of propanoic acid, the possibility of achieving regioselective α-methylenation by linking the substrate to phosphorus was evaluated. Thus, a series of acyloxyphosphines and acylphosphites derived from either propionic acid or phenylacetic acid was prepared and, where stability allowed, fully characterised. Some of the resultant simple mixed anhydrides posed problems relating to their stability, and the stabilisation of such ligand systems by using electronic and / or steric effects was therefore explored. In addition, the coordination chemistry and in solution behaviour of Rh(I) and Ru(II) complexes containing these ligands was examined. Similar to the free ligands, complexes derived from these mixed anhydrides rearranged in solution via a number of decomposition pathways, with the specific pathway dependent on the nature of the auxiliary ligands. For most of these complexes, however, ligand decarbonylation was the route of preference for decomposition. Despite the instability of these complexes, a selection of Rh(I) mixed anhydride complexes were assessed for their potential as C-H activation catalysts in reactions aimed at the α-methylenation of saturated carboxylic acids. Furthermore, the stabilisation of Rh(I) mixed anhydride complexes with chelating auxilary ligands, such as bisphosphines or N-substituted diphosphinoamines, was explored. In particular, a series of new Rh(I) mixed anhydride complexes containing dppe, dppb and dppbz as secondary ligands were prepared and the effects of these secondary ligands on the in solution stability of these complexes assessed. As MeP represents the final product in the first stage of the Alpha process and not propanoic acid, the utilisation of PNP iridium pincer complexes in the regioselective sp³ C–H activation of MeP and related esters was also examined. The factors that govern the regioselectivity of such reactions were of great interest to us and, in particular, the effects of water on the reactivity and regioselectivity of these reactions were explored. For MeP, preferential C–H activation of the methoxy group was found to proceed under anhydrous conditions and the catalytic functionalisation of this site with ethene using this activation approach was considered. Formaldehyde, employed in the second stage of the Alpha process, is a difficult substance to manufacture and handle, especially on a large scale. A preliminary study on the in situ production of anhydrous formaldehyde via the catalytic dehydrogenation of methanol was therefore performed. During this study, catalytic systems based on carbonate salts and / or transition metal complexes were considered. In the hope of reducing the number of steps required in the production of MMA, a new one-pot cascade reaction for the indirect α-methylenation of MeP with methanol was developed. Although the production of MMA using this system only proceeded with low efficiency, the obtained results serve as an important proof of concept for future developments in this area. Finally, the capacity of a series of simple bases to catalyse the condensation of MeP with formaldehyde was assessed as part of a fundamental study directed towards determining the factors that govern the efficiency of this reaction. In addition, the extent to which each base effects the deprotonation in the α-position of MeP was determined with the aid of deuterium labelling experiments. Similarly, using sodium propanoate as model base a rough estimate of the kinetics of deprotonation could be made based on the degree of deuterium incorporation over time. These studies suggested that the low efficiency of this condensation reaction is not caused by ineffective deprotonation but rather by the weak nucleophilicity of the generated carbanion. For this reason, attempts to increase the electrophilicity of formaldehyde through Mannich-type condensations reactions involving secondary amine and carboxylic acid additives were made.

547

Mechanistic And Synthetic Investigations On Carboxylic Anhydrides And Their Analogs

Karri, Phaneendrasai

03 1900

This thesis reports diverse synthetic and mechanistic studies in six chapters, as summarized below. Chapter 1. Revised mechanism and improved methodology for the perkin condensation.1 The generally accepted mechanism for the well-known Perkin condensation is unviable for at least two reasons: (1) the normally employed base, acetate ion, is too weak to deprotonate acetic anhydride (Ac2O, the substrate); and (2) even were Ac2O to be derprotonated , its anion would rapidly fragment to ketene and acetate ion at the high temperatures employed for the reaction. It has proved in this study that the Perkin condensation occurs most likely via the initial formation of a fem-diacetate (3, Scheme 1) from benzaldehyde (2) and acetic anhydride (1).1 The key nucleophile appears to be the enolate of 3 (and not of 1), which adds t the C=O group of the aldehyde 2 (present in equilibrium with 3). Thus cinnamic acid (4a) was formed in -75% yield with 3 as the substrate under the normal conditions of the Perkin reaction. The deprotonation of the diacetate appears to be electrophilically assisted by the neighbouring acetate group, the resulting enolate being also thermodynamically stabilized in form of an orthoester (I). The possibility that the diacetate 3 is the actual substrate in the Perkin reaction indicates that the reaction can be effected under far milder conditions, with a base much stronger than acetate ion. This was indeed realized with potassium t-butoxide in dioxane, which converted the gem-diacetates derived from a variety of aromatic aldehydes to the corresponding cinnamic acids (4), rapidly and in good yields at room temperature (Scheme 2). This represents a vast improvement in the synthetic protocol for the classical Perkin reaction, which remains an important carbon-carbon bond forming reaction to this day. Chapter 2. Aromaticity in azlactone anions and its sifnificance for the Erlenmeyer synthesis.2 The classical Erlenmeyer azlactone synthesis of amino acids occur via the formation of an intermediate azlactone, and its subsequent deprotonation by a relatively weak base(acetate ion),. The resulting azlactone anion (cf. II, Scheme 3) functions as a glycine enolate equilvalent, and is considered in situ with an aromatic aldehyde, subsequent dehydration leading to the 4-alkylidene oxazolone(analogously to the Perkin reaction). Interestingly, azlactone anions are possibly aromatic, as they possess 6π electrons in cyclic conjugation; this would explain their facile formation as also the overall success of the Erlenmeyer synthesis. The following studies evidence this possibility. The strategy involved studying the rates of base-catalyzed deprotonation in 2-phenyl-5(4H)-oxazolone (azlactone, 5) and its amide and ketone analogs, 3-methyl-2-phenyl-4(5H)-imidazolone (6), and 3,3-dimethyl-2-phenyl-493H)-pyrrolone (7) respectively.2 Two processes were studied, deuterium exchange and condensation with hexadeuteroacetone (Scheme3): both are presumably mediated by the anions II-IV, so their stabilities would govern the overall rates. These were followed by 1H NMR spectroscopy by monitoroing the disappearance of the resonance of the proton α to the carbonyl group. The order of deprotonation was found to be 6 > 5 > 7. However, the expected order based on pKa values would be ketone > ester > amide, i.e. 7 > 5 > 6. The inverted order observed strongly indicates the incursion of aromaticity, which would be enhanced by the electron-donor capabilities of the heteroatoms is 5 and 6. This is further substantiated by the greater reactivity in the case of the nitrogen analog 6 relative to the oxygen 5, which parallel the electronegativity order. (The aromaticity order would thus be: III > II > IV. The imidazole nucleus is indeed to be considerably more aromatic than the oxazole.) The synthesis of the analogs 6 and 7 was accomplished via an interesting intramolecular aza-Wittig reaction (Schemes 4 & 5) Chapter 3. Umpolung approach to the Erlenmeyer process in the synthesis of dehydro amino acids. These studies are based on the general observation that most of the strategies for the synthesis of α-amino acids introduce the side chain (or part was inverted in an umpolung sense. The key reaction studied was that of 2-phenyl-4-ethoxymethylne-5(4H)-oxazolone (11) with Grignard reagents: this resulted in the opening to yield a protected dehydro amino acid (12), in good to excellent yields (65-87%)(Scheme ^). As the azlactone reactant 11 is the ekectrophilic partner, this may be viewed as a partial umpolung version of the classical Erlenmeyer process. The readily available reactants, simple procedure and mild reaction conditions make this a very attractive method for the synthesis of a variety of α-dehydro amino acids. Chapter 4. The Erlenmeyer azlactone synthesis with aliphatic aldehydes under solvent-free microwave conditions. 3 A serious limitation to the classical Erlenmeyer reaction is that it generally fails in the case of aliphatic aldehydes. This chapter describes a convenient approach to this problem that extends the scope of the Erlenmeyer synthesis, via a novel microwave-induced, solvent-free process. This, it was observed that azlactones (5) react with aliphatic aldehydes (13) upon adsorption on neutral alumina and irradiation with microwaves (< 2 min), forming the corresponding Erlenmeyer products (14) in good yields (62-78%, Scheme 7). (The possible mechanistic basis of the procedure, which is presumably mediated by V , is discussed).3 Chapter 5. 2,4, 10-Trioxaadamantane as a carboxyl protecting group: application to the asymmetric synthesis of α-amino acids (umpolung approach).It is known that the 2,4,10-trioxaadamantane moiety is not only remarkably stable to nucleophilic attack, but can also be easily hydrolyzed to the corresponding carboxylic acid.4 It was of interest to apply this carboxyl protection strategy for designing a synthesis of α-amino acids, essentially by starting with a protected glyoxylic acid. The corresponding aldimine was expected to (nucleophilically) add organometallic reagents at the C=N moiety (cf. Shceme 8), the side chain of the amino acid being thus introduced in umpolung fashion. Also, a chiral aldimine would define an asymmetric synthesis of amino acids. Indeed, the chiral aldimine 17, derived from 2,4,10-troxaadamantane-3-carbaldehyde 15 and [(S)-(-)-1-phenylethylamine] 16, reacted with a variety of Grignard reagents to furnish the corresponding protected α-amino acids (18) in good yields, with moderate diastereometric excess (Scheme 8). Better yields and ‘de’ values were obtained with organolithium reagents. Chapter 6: possible one-pot oligopeptide synthesis with azlactones or amino acid N-carboxyanhydrides (NCAs). This chapter describes a novel approach to oligopeptide synthesis employing azlactones or NCA’s as amino acid equivalents which are simultaneously protected and activated (Scheme 9). Thus, the addition of the 4-substituted 2-benzyloxyazlactone (19) to an N-protected amino acid under basic conditions, was initially explored. The reaction was expected to yield a dipeptide (21) via the rearrangement of the mixed anhydride intermediate (VI) (Scheme 9). The subsequent addition of a different azlactone to the dipeptide (21) would analogously lead to the formation of a tripeptide (22). This may be performed repetitively to define a strategy for C-terminal extension of an oligopeptide chain, noting that no intervening deprotecting and activating steps are necessary. (In toto deprotection may be effected finally via the hydrogenolyis of the bvenzyloxy groups, to obtain 23.) A closely analogous strategy may also be envisaged by employing N.carboxyanhydrides (NCA’S, 24) instead of azlactones, as shown in Scheme 10 (forming dipeptide 26 and tripeptide 27). The main difference n this case is that the carbamic acid moiety of the intermediate mixed anhydride (VII) is expected to undergo decarboxylation to VIII (thus obviating the need for a deprotection step). However, this putative advantage is offset by the instability of NCA’s and their tendency toward polymerization. However, only partial success could be achieved in these attempts, although a variety of conditions were explored. The strategy and the experimental results have been analyzed in detail, as this interesting approach appears to be promising, and worth further study. (For structural formula pl refer the pdf file)

Amino Acid Synthesis

Carboxylic Anhydrides - Synthesis

Erlenmeyer Reaction

Perkin Reaction

Carboxylic Anhydrides

Erlenmeyer Azlactone Synthesis

Perkin Condensation

Dehydroamino Acids

Aliphatic Aldehydes

2,4,10-Trioxaadamantane

N-carboxyanhydrides (NCAs)

Oligopeptide Synthesis

Organic Chemistry

Polymerace za otevření kruhu laktonů a laktidů / Ring-opening Polymerization of Lactones and Lactides

Boháčová, Zdeňka

January 2015

Medicínské aplikace tvoří z biodegradabilních alifatických polyesterů na bázi polylaktonů, polylaktidů a jejich kopolymerů velmi atraktivní skupinu materiálů. Metody přípravy těchto polymerů jsou založeny na polymeraci za otevření kruhu laktonů a laktidů. Mnoho organokovových sloučenin se vyznačují jako účinné a vysoce selektivní katalyzátory těchto polymerací, avšak je známo, že deriváty těžkých kovů jsou škodlivé pro lidský organismus. Z tohoto důvodu je v dnešní době rostoucí zájem o vývoj účinných „green“ polymeračních systémů pro syntézu biodegradabilních alifatických polyesterů. Předložená disertační práce se věnuje přípravě alifatických polyesterů založených na polykaprolaktonu, polylaktidu, polyglykolidu a zejména jejich kopolymeru pomocí organického katalyzátoru náležícího do skupiny N-heterocyklických karbenů (NHC) bez přítomnosti centrálního atomu těžkého kovu. Literární rešerše je zaměřená na pokroky v polymeraci za otevření kruhu (ROP) cyklických esterů (laktonů a laktidů) pomocí organických "metal-free" katalyzátorů. Nicméně, nebyly nalezeny žádné studie, kde se pro přípravu polyglykolidu nebo jeho kopolymerů využívá polymerace za otevření kruhu pomocí karbenových katalyzátorů. Experimentální část práce popisuje přípravu a vlastnosti 1,3-di-tert-butylimidazol-2-ylidenu (NHC-tBu) karbenu připraveného z jeho stabilní chloridové soli. Další část je zaměřena na přípravu polyesterů z cyklických monomerů, jmenovitě L-laktidu, D, L-laktidu, glykolidu a -kaprolaktonu pomocí NHC-tBu jako katalyzátoru. Byla zkoumána nová metoda přípravy termosenzitivního amfifilního triblokového kopolymeru na bázi biodegradabilního hydrofobního polylaktidu, polyglykolidu a biokompatibilního hydrofilního polyethylenglykolu (PLGA–PEG–PLGA) pomocí připraveného NHC-tBu. Dále byly studovány podmínky polymerace (například: přečištění monomeru, teploty polymerace, různé typy rozpouštědel, poměry rozpouštědla ku monomeru a nebo různé poměry iniciátoru ku katalyzátoru). Na závěr byl připravený PLGA–PEG–PLGA kopolymer srovnán s kopolymerem připraveným pomocí Sn(II)2-ethylhexanoátu. NHC-tBu se v přítomnosti PEG projevil jako účinný katalyzátor polymerace za otevření kruhu laktonu a laktidů. Připravené kopolymery dosahovaly vysoké konverze monomeru (70 – 85%) s polydisperzitou (Mw/Mn okolo 1,2). Byl připraven PLGA–PEG–PLGA kopolymer se dvěma fázovými přechody (sol-gel a gel suspenze) a gelační teplotou v rozmezí 35 – 43 °C. Změny polymeračních podmínek neměly ve většině případů zásadní vliv na chemické vlastnosti kopolymeru, jako jsou molekulová hmotnost nebo polydisperzita, ale měly významný vliv na visko-elastické vlastnosti.

Synthèse et modification d'un polyester biodégradable pour application agro-textile : le poly(butylène succinate) / Synthesis and modifications of a biodegradable polyester for agro-textiles : poly(butylene succinate)

Vandesteen, Marie

27 March 2015

Au cours des dernières décennies, l’utilisation de polymères biodégradables a connu un regain d’intérêt pour des applications agricoles. Dans cette étude, nous nous concentrons sur le développement de textiles biodégradables destinés à la protection anti-insecte des cultures. Actuellement, ces textiles doivent être collectés par des entreprises après la saison agricole et entraîne un coût non négligeable pour l’utilisateur. Une alternative serait d’avoir des agro-textiles qui pourraient être collectés par l’utilisateur et minéralisés après quelques mois. Les polymères biodégradables pourraient répondre à ces objectifs. Dans cette étude, nous nous sommes concentrés sur le poly(butylene succinate) un polymère biodégradable et biosourcé. Le PBS a été synthétisé sur un pilote de polycondensation. Néanmoins, le PBS issu de cette synthèse présente de faibles propriétés rhéologiques. La structure du PBS a donc été modifiée par l’incorporation de branchements ou d’allongeurs de chaines. Les propriétés mécaniques ont également été optimisées via la synthèse de systèmes PBS/PLA transréagits et de PBS nanocomposites. Ces PBS modifiés ont été testés au filage. Finalement un fil de PBS avec 0,5% de silice sphérique a été produit à plus grande échelle et un textile a été fabriqué. Le vieillissement de ces fils PBS a été étudié et la conservation des propriétés mécaniques durant l’utilisation du fil en extérieur a été validée. Enfin, une dernière approche plus exploratoire a été testée. Elle consiste en la modification du PBS par des interactions supramoléculaires réversibles en température. / In the last decade, biodegradable polymers have gained significant interest for agricultural applications. Here we focus on the development of biodegradable textiles for insect-proof nets. Currently these textiles must be collected by specialized companies after the growing season and generate disposal cost. An ideal agrotextile would be collected by the user at the end of the growing season, and undergo full mineralization within few months. These requirements can be achieved by using biodegradable polymers. In this study, poly(butylene succinate) (PBS), a biobased and biodegradable polymer was studied. PBS was synthesized by polycondensation on a pilot plant reactor. Because of low rheological properties of the synthesized polyester, the chemical structure of PBS was modified by several approaches like chain extension or branching. The mechanical properties were tuned with the synthesis of PBS/PLA transreacted systems and PBS nanocomposites. These modified PBS were tested upon fiber spinning. Finally a PBS yarn with 0,5% spherical silica was produced at higher scale and a textile was done. Ageing of the PBS yarns was also studied and the conservation of the mechanical properties during use of the textile was validated. Lastly a more exploratory approach was tested. It is synthesis of modified PBS by supramolecular interactions, which are reversible upon temperature.

Matériaux

Polyester aliphatique

PBS - Poly(butylène succinate)

Polycondensation

Biodégradabilité

Biosourcé

Filage voie fondue

Textile technique

Polyester biodégradable

Agro-Textiles

Materials

Aliphatic polyester

PBS - Poly(butylene succinate)

Polycondensation

Biodegradability

Biobased

Melt-Spinning

Technical textile

Biodegradable polyester

Agro-Textiles

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