Výzkum vlivu vnějších podnětů na chování teplotně-citlivých polymerů pomocí spektroskopických metod / Investigation of external stimuli-influenced temperature-sensitive polymers behavior studied by spectroscopic methods

Velychkivska, Nadiia

January 2020

Temperature-sensitive polymers or "smart" polymers are materials that undergo phase separation initiated by temperature change. Some of these polymers possess phase separation temperatures close to human body temperature (37 C), thus offering a wide range of potential applications in controlled drug release or gene delivery systems, bioseparations, tissue engineering, etc. Of the polymers with a phase separation temperature close to 37 C, poly(N- isopropylacrylamide) (PNIPAM) and poly(vinyl methyl ether) (PVME) are perhaps the most important and were selected as the subjects of this study. In this work, these two polymers have been examined in the presence of low molecular weight additives, and their colloidal stability evaluated using 1 H NMR (nuclear magnetic resonance) and time-resolved 1 H NMR spin-spin relaxation time T2 experiments. An improved model of the two exchangeable states was applied for a more detailed characterization of the phase separation process. The main focus of this study was to determine the influence of additives on the phase separation behavior of the polymers (phase separation temperature, width of transition, maximum number of polymer chains participating in phase separation), reversibility of the phase separation, dynamics of solvent molecules (water and additive),...

INTERAKCE V ROZTOCÍCH A GELECH NA PODNĚTY REAGUJÍCICH POLYMERNÍCH SYSTÉMŮ STUDOVANÝCH NMR SPEKTROSKOPIÍ / Interactions in solutions and gels of stimuli-responsive polymer systems investigated by NMR spectroscopy

Konefał, Rafał

January 2018

Stimuli-responsive (stimuli-sensitive, intelligent, or smart) polymers are polymer materials which, after small external stimuli, evidently change their physical or chemical properties. Smart polymers can be classified according stimuli they respond to such as: temperature changes, mechanical stress, light irradiation, ultrasonic treatment, application of external magnetic as well as electric field, changes of pH, ionic strength, addition of the chemical agents and presence of biomolecules and bioactive molecules. Stimuli-responsive synthetic polymer systems has attracted considerable attention due to wide range of applications, i.e. controlled drug delivery and release systems, diagnostics, tissue engineering and 'smart' optical systems, as well as biosensors, microelectromechanical systems, coatings, and textiles. Among the types of stimuli for this dissertation temperature, pH and reactive oxygen species (ROS) responsive polymer systems were studied. In case of thermoresponsive polymers, when polymer chains are molecularly dissolved in a good solvent, changes (increasing or decreasing) of temperature result in insolubility (globular nanoparticles formation) of polymer chains, called temperature induced phase-separation. pH responsive polymers change properties such as: solubility, volume (gels),...

SYNTHESIS AND VISCOELASTIC PROPERTIES OF GELS OBTAINED FROM LINEAR AND BRANCHED POLYMERS

Debnath, Dibyendu, Debnath

24 May 2018

No description available.

Polymer Chemistry

Polymers

Chemistry

Materials Science

SYNTHESIS AND VISCOELASTIC PROPERTIES OF GELS OBTAINED FROM LINEAR AND BRANCHED POLYMERS

Debnath, Dibyendu

24 May 2018

No description available.

Chemistry

Materials Science

Polymer Chemistry

Polymers

Mécanismes de vieillissement de l'Assemblage-Membrane-Électrodes dans une pile à combustible de type PEM par approche expérimentale / Mechanisms of Membrane-Electrode-Assembly aging in PEMFC by experimental approach

Huang, Botao

17 July 2012

Cette thèse a permis de mettre en évidence les mécanismes de vieillissement de la pile à combustible de type PEM lors de cyclages d'humidité de l'air et suite à la perforation de l'AME (Assemblage Membrane Electrodes). Premièrement, les mécanismes connus de dégradation des divers composants (membrane, catalyseur, support du catalyseur, GDL, plaques bipolaires et joints d'étanchéité) ont été présentés. Ensuite, les outils de diagnostic en-ligne (chronopotentiométrie, spectroscopie d'impédance, gestion de l'eau et analyse chimique de l'eau) et ceux hors-ligne (CV et LSV) ainsi que des analyses post-mortem (RMN, MET, MEB et DRX) ont été décrits. Expérimentalement, le cyclage en humidité de l'air a été effectué en mono-cellule de 25 cm2: le cyclage à forte humidité entraîne une perte significative de la surface électroactive du catalyseur; le cyclage à faible humidité favorise la perméation de l'hydrogène à travers la membrane. Le cyclage à faible humidité réalisé sur une pile de 100 cm2 a montré un mécanisme de dégradation différent de celui de la pile de 25 cm2: la perméation de l'hydrogène reste faible alors que la tension de la pile était de plus en plus fluctuante certainement du fait de la présence de volumes morts et de la rétention d'eau liquide dans la pile. L'effet de la perforation de l'AME a été étudié sur une pile de 100 cm2: la perforation par une punaise de 0,7 mm de diamètre ne génère qu'une légère augmentation de la perméation de l'hydrogène; la perforation par une punaise de 1,2 mm de diamètre entraîne une chute de tension et l'augmentation significative de la résistance de diffusion de l'oxygène due à la perméation importante de l'hydrogène / This thesis highlights the aging mechanisms of PEM Fuel Cell submitted to two main aging conditions: air relative humidity (RH) cycling, and MEA (Membrane Electrode Assembly) pinhole test of operation. First, the aging mechanisms of PEMFC main components (membrane, catalyst, carbon support, GDL, bipolar plates and gaskets), have been reviewed from the literature. Then the on-line diagnostic tools (chronopotentiometry, electrochemical impedance spectroscopy, water management and water analysis), off-line ones (cyclic voltammetry and linear sweep voltammetry) and post-mortem analyses (nuclear magnetic resonance, transmission electron microscopy, scanning electron microscopy and X-ray diffraction) have been described. Experimentally, the high and low air RH cycling runs have been carried out with a 25 cm2 single cell: the high air RH cycling run promoted serious loss of the ElectroChemical Surface Area (ECSA); the low air RH cycling run caused significant increase in hydrogen crossover. The low air RH cycling has been also performed with a 100 cm2 single cell and the aging mechanism was different from that of 25 cm2 cell: the hydrogen crossover remained very low but the fuel cell voltage exhibited strong fluctuations at the end of the run: this was attributed to the presence of dead volumes and liquid water retention within the cell. Finally, MEA pinhole effect has been investigated with a 100 cm2 single cell: the perforation by a 0.7 mm diameter pin promoted slight increase in the hydrogen crossover; the perforation by a 1.2 mm diameter pin caused significant cell voltage losses and serious increase in the cathode diffusion resistance due to significant hydrogen crossover

Cyclage HR

Diagnostic

DRX

MEB

MET

PEM

Perforation

Perméation d'H2

RMN 1H

Spectroscopie d'Impédance

Surface électroactive

Vieillissement

Voltammétrie cyclique

Voltammétrie linéaire

Aging

CV

Diagnostic

ECSA

1H NMR

H2 crossover

Impedance Spectroscopy

LSV

PEMFC

Pinhole

RH Cycling

SEM

TEM

XRD

621.312 429

Contribution de la RMN 13C à l’analyse des huiles végétales, huiles essentielles et résines (Olea europaea, Pinus halepensis et Cedrus atlantica) / Contribution of the 13C NMR analysis of vegetable oils, essential oils and resins (Olea europaea, Pinus halepensis and Cedrus atlantica)

Nam, Anne-Marie

21 March 2014

Les produits issus de la biomasse végétale connaissent depuis quelques années un succès grandissant dans de nombreuses industries (aromathérapie, cosmétique, parfums, etc.). L’objectif de notre étude était, d’une part de contribuer au développement des méthodes d’identification et de quantification des constituants des mélanges naturels par RMN 13C et RMN 1H (par exemple le squalène dans l’huile d’olive), et d’autre part, de contribuer à la caractérisation chimique de deux conifères introduits en Corse, le pin d’Alep (huile essentielle) et le cèdre de l’Atlas (huile essentielle, huile pyrolytique et résine).La première partie concerne la quantification du squalène présent dans l’huile d’olive. En effet, ce triterpène linéaire participe à la stabilité oxydative de l’huile d’olive et joue un rôle important dans la réduction des risques de certains cancers. Il s’agissait de mettre au point un protocole expérimental basé sur la RMN 1H ou 13C en utilisant un appareil de routine (9,4 Tesla). La quantification par RMN 13C s’est avérée fiable et elle a été appliquée à la quantification du squalène dans 25 échantillons d’huile d’olive de Corse.La seconde partie de nos travaux concerne la caractérisation chimique de l’huile essentielle de pin d’Alep introduit dans trois stations de Corse (Capo di Feno, Saleccia et Tre Padule de Suartone). L’analyse détaillée de l’huile essentielle de cônes, par combinaison des techniques chromatographiques et spectroscopiques, a permis d’identifier 48 composés. La composition chimique est largement dominée par les monoterpènes (Alpha-pinène et myrcène) et un sesquiterpène oléfinique ((E)-Béta-caryophyllène). La RMN 13C a permis d’identifier divers diterpènes, dont le 8,12-époxy-14-labdèn-13-ol. Ce composé est décrit pour la première fois dans l’huile essentielle de pin d’Alep. L’analyse de 15 échantillons d’huile essentielle de cônes a mis en évidence trois types de compositions : Alpha-pinène ; myrcène ; Alpha-pinène/myrcène. Enfin, l’analyse de 47 échantillons d’huile essentielle d’aiguilles, associée à un traitement statistique des données (ACP, AFD), a permis de mettre en évidence une variabilité chimique intraspécifique. Ainsi, les échantillons se répartissent en trois groupes selon leur teneur en (E)-Béta-caryophyllène (groupe I), en E-Béta-caryophyllène/Alpha-pinène/myrcène (groupe II) et en myrcène (groupe III).La dernière partie a été consacrée à l’étude de Cedrus atlantica. L’analyse détaillée d’une huile essentielle commerciale (du Maroc) a permis d’identifier 20 constituants, les composés majoritaires sont les Alpha-, Béta- et Gamma-himachalène. Par ailleurs, 7 composés absents de notre bibliothèque de données spectrales ont été identifiés par RMN 13C. Les compositions chimiques des huiles pyrolytiques artisanales du Maroc sont également dominées par les himachalènes et la (E)-Alpha-atlantone. Enfin, nous avons réalisé l’analyse qualitative et quantitative par RMN 13C, sans séparation préalable, de 28 échantillons de résine de C. atlantica récoltés dans les 5 forêts de Corse référencées par l’ONF (Bavella, Bonifato, Ospedale, Pineta et Vizzavona). A côté des acides résiniques, nous avons également identifié 3 lignanes (pinorésinol, laricirésinol et 9-acétate de laricirésinol). Pour l’ensemble de ces composés, nous avons mis en évidence trois types chimiques. Enfin, nous avons mis au point et validé un protocole expérimental de quantification des lignanes par RMN 1H. / Natural products isolated from plants acquired, in recent years, a growing success in many industries (aromatherapy, cosmetic, perfumes). The objective of our study was to contribute, on the one hand, to the development of methods involving 13C and 1H NMR for the identification and quantification of the components of natural mixtures, and on the other hand, to the chemical characterization of two conifers brought to Corsica, Aleppo pine (essential oil) and atlas cedar (essential oil, pyrolysis oil and resins).The first part concerned the quantification of squalene present in olive oil. Indeed, linear triterpene participated in the oxidative stability of olive oil and play an important role by decreasing some kind of cancers risks. It’s deal with to elaborate an experimental part based on NMR 1H and 13C by using routine apparatus (9.4 Tesla). Quantification by NMR 13C is reliable and have been applied to squalene quantification in 25 samples of Corsican olive oil.The second part of our work concerned the chemical characterization of the essential oil of Aleppo pine brought to Corsica in three different stations (Capo di Feno, Saleccia and Tre Padule de Suartone). A detailed analysis of cone essential oil, using the combination of chromatographic and spectroscopic techniques, leads to the identification of 48 compounds. Chemical composition is extensively dominated by monoterpens (Alpha-pinene and myrcene) and one olefinic sesquiterpen ((E)-Béta-caryophyllene). 13C NMR allowed to the identification of various diterpens, particularly the 8,12-epoxy-14-labden-13-ol. This compound is described for the first time in aleppo pine essential oil. Fifteen samples of cone essential oil were analysed allowing differentiating three kinds of compositions: Alpha-pinene; myrcene; Alpha-pinene/myrcene. Finally, analysis of 47 samples of needles essential oil, associated with statistical treatment of the results (PCA and PFA), suggested the occurrence of an intraspecific chemical variability. Samples are divided into three groups, based on their high contents in (E)-Béta-caryophyllene (groupe I), in (E)-Béta-caryophyllene/Alpha-pinene/myrcene (groupe II) and in myrcene (groupe III).The last part concerned the study of Cedrus atlantica. A detailed analysis of commercial essential oil leads to the identification of 20 constituents. Main compounds are Alpha-, Béta- and Gamma-himachalene. Moreover, seven compounds, not yet referenced in our home-made NMR spectral data library, were identified by NMR 13C. Chemical compositions of handwork pyrolysis oils from Morocco were also dominated by the himachalene’s and (E)--atlantone. Qualitative and quantitative analysis of 28 samples of Cedrus atlantica resins, obtained from the five Corsican forests referenced by the Office National des Forêts of Corsica (Bavella, Bonifato, Ospedale, Pineta and Vizzavona) have been done, without any step of chromatography. Beside resinic acids, we have been identified three lignans (pinoresinol, lariciresinol and lariciresinol-9-acetate). Qualitative and quantitative analysis of these compounds, leads to the occurrence of three types of chemical composition. Finally, we have developed and validated a method for quantification of lignans by 1H NMR.

Analyse des mélanges complexes naturels

Huiles essentielles

Huiles pyrolytiques

Huiles d’olives

Oléorésines

Rmn 13c

Rmn 1h

Squalène

Lignanes

Olea europaea

Pinus halepensis

Cedrus atlantica

Natural mixture analysis

Essential oil

Pyrolysis oil

Olive oil

Oleoresins

13c nmr

1h nmr

Squalene

Lignans

Olea europaea

Pinus halepensis

Cedrus atlantica

547

NMR Relaxation And Charge Transport In Conducting Polymers

Singh, Kshetrimayum Jugeshwar

04 1900

Conducting and semiconducting polymers, consisting of delocalized π-electrons, have been studied for the past three decades. These materials have shown novel physical properties with interesting applications in batteries, detectors, light emitting diodes, field effect transistors, solar cells, biosensors etc. Nevertheless the charge transport properties are yet to be understood in detail due to the complexity of the system, especially due to the interplay of quasi-one dimensionality (q-1D), disorder, localization and electron-electron interactions(EEI). A combined investigation of both conductivity and spin lattice relaxation time, especially at very low temperatures and high magnetic fields, is really lacking in conducting polymers. In this thesis a set of experiments – dc conductivity, magnetoresistance (MR), Nuclear Magnetic Resonance (NMR) spin lattice relaxation time (T1) measurements, magnetic susceptibility amd ac conductivity have been carried out in conducting polymers. NMR being a local probe it is possible to get the nanoscopic scale charge transport mechanism. Further, this helps to develop a consistent understanding among a wide range of the physical properties in conducting polymers. In this thesis author has reported the results of experiments at ultra low temperature (mk) and ultra high magnetic field which give more insight about the roles of electron-electron interaction(EEI) and disorderin charge transport properties. This thesis describes a detailed study of charge transport and NMR relaxation in three representative conducting polymers namely polypyrrole(PPy)., poly-3-methylthiophene(P3MT) and poly3-hexylthiophene(P3HT). The emphasis is to understand the charge transport phenomena and NMR relaxation, especially at ultra low temperatures (down to 20 mk) and high magnetic field (up to 23.4 T). The NMR T1 relaxation mechanisms are discussed in terms of (i) Korringa relaxation, (ii) relaxation due to spin diffusion to paramagnetic centers (SDPC) amd (iii) reorientation of symmetric groups, depending upon the temperature range.

Nuclear Magnetic Resonance

Relaxation (Physics)

Conducting Polymers

Charge Transport

Conducting Polymers - Charge Transport

Conducting Polymers - NMR Relaxation

Metallic Polypyrrole

Poly 3-Methylthiophene

Poly 3-Hexylthiophene

1H-NMR

3-Methyl Thiophene

Proton Spin Lattice Relaxation (T1)

NMR Relaxation

Metallic PPy-PF6

Magnetism

Propagation and quality assessment for the introduction of Greyia Radlkoferi into commercialization

Nogemane, Noluyolo

02 1900

Greyia radlkoferi is a South African indigenous tree, which has recently been discovered to be a source of extracts that have a potential in the development of cosmeceutical herbal products having the ability to treat hyperpigmentation disorders. For product development however, G. radlkoferi would need to be available in a commercial scale. Greyia radlkoferi grows naturally in the wild and is often available for cultivation as an ornamental plant. In order to establish this plant into cultivation, suitable propagation techniques must be established for rapid multiplication of trees and thus a sustainable leaf production. For consistent and improved leaf supply to the market, agronomic practices that will enhance leaf production were investigated in the current study. Furthermore, in order to meet market demand in terms of good quality extracts with guaranteed therapeutic efficiency, pre-harvest and post-harvest factors that affect the chemical composition of the extracts were investigated. Recently developed biotechnology techniques such as metabolomics using 1H-NMR and multivariate data analysis offered a platform to study the chemical variation of extracts. Therefore, the current study was aimed at understanding the requirements for propagation and optimum leaf production as well as conditions that favour optimum production of secondary metabolite of G. radlkoferi plant material (at pre and post-harvest) and thus assess its commercial viability. To understand the effects of temperature on seed germination of G. radlkoferi, seeds were exposed to five temperatures (10°C, 15°C, 20°C, 25°C and 30°C) in the incubators in the laboratory. Germination of G. radlkoferi by seeds was discovered to be temperature dependent. The optimum germination temperature of 81% was obtained at 25°C. In the case of vegetative propagation by stem cuttings, the effect of cutting position (basal or apical), exogenous rooting hormone (Seradix1, Seradix 2, 0.1% IBA, 0.3% IBA and 0.8% IBA) and cutting position were investigated in the glasshouse. The cutting position had a significant effect on rooting of G. radlkoferi cuttings with basal cuttings exhibiting 35% rooting as compared to 6% rooting attained for the apical cuttings. A clear trend in rooting response to application of rooting hormones was observed, with 0.1% Indole butyric acid (IBA) showing the highest rooting percentage of 63%. Considering the outcomes of the propagation studies as well as the limited material for vegetative propagation, seed propagation appears to be the most suitable technique for large-scale multiplication of G. radlkoferi. The effect of different pruning techniques as well as harvesting frequencies on fresh and dry weights of G. radlkoferi leaves were evaluated. Factors considered were four pruning treatments (‘pruned but not tipped’, ‘tipped but not pruned’, ‘not pruned nor tipped’ as well as ‘pruned and tipped’) and three harvesting periods (monthly, bimonthly and once–off). Bimonthly harvests highly increased leaf production compared to trees that were harvested monthly and once-off with higher leaf fresh weight yield of 238 g per tree or 2.38 tons/per hectare as well as dry weight yield of 83 g per tree or 0.830 tons/hectare. This outcomes of this study further suggested that a suitable pruning practice for G. radlkoferi would be to either ‘prune only’ or ‘cut back the main stem’ rather than a combination of the two treatments. The influence of seasons (summer, autumn, winter and spring) on the anti-tyrosinase activity and metabolomics profile of G. radlkoferi leaf extracts were investigated. Seasons significantly influenced the chemical composition and the efficacy of the plant extracts. Tyrosinase enzyme inhibition was investigated against monophenolase (tyrosine) with kojic acid as positive control. The highest tyrosinase inhibition concentration with IC50 (50% tyrosinase inhibition concentration) value of 30.3±1.8 μg/ml were obtained in winter harvested leaves compared to the other seasons. The lowest IC50 values were obtained in spring. Metabolomics analysis using orthogonal partial least square discriminant analysis (OPLS-DA) provided a clear class separation according to the harvest season. Extracts from winter harvested leaves contained sucrose, acetamide, alanine and a compound of the catechin group (gallocatechin-(4 alpha->8)-epigallocatechin) as revealed by 1H-NMR metabolomics with assistance of LC-MS. Since compounds of the catechin group are well-known tyrosinase inhibitors, the high tyrosinase activity exhibited in extracts of winter harvested G. radlkoferi leaves could be ascribed to the presence of gallocatechin-(4 alpha->8)-epigallocatechin. Based on the outcomes of the seasonal study, we suggest that in order to obtain extracts with high bioactivity, the best suitable time for harvesting leaf samples is in late autumn-early winter. Processing leaf material using three different drying methods (sun, oven and air drying) significantly influenced chemical composition and the efficacy of the plant extracts. Extracts prepared from air-dried leaf material showed the highest tyrosinase inhibition with IC50 value of 17.80 μg/ml compared to extracts of the other drying methods. Extracts of leaves processed with air drying preserved most metabolites during processing while extracts of sun-dried and oven-dried leaves clearly depleted some metabolites especially amino acids and some aromatic compounds. 1H-NMR metabolomics approach with the assistance of LC-MS data successfully determined a positive association of alanine, acetamide, sucrose and gallocatechin-(4 alpha->8)-epigallocatechin as the chemical constituents contributing to the variation in the air-dried leaves compared to the oven-dried leaves. A positive association of valine, alanine, leucine, isoleucine, gallocatechin-(4 alpha->8)-epigallocatechin and glucose contributed to the variation in air-dried group, compared to the sun-dried group. The highest tyrosinase inhibitory activity exhibited in air-dried samples compared to the other drying methods was associated with the presence of gallocatechin-(4 alpha->8)-epigallocatechin. Because air drying preserved most leaf metabolites compared to sun and oven drying, it was regarded as the most suitable method for processing G. radlkoferi leaf material. This study is the first scientific account that provides guidelines and recommendations to (1) establish G. radlkoferi as a cultivated plant for commercialization, (2) optimize leaf production for sustainable supply to the commercial markets and (3) optimize medicinal content of G. radlkoferi related to harvesting time and post-harvest processing (drying), for enhanced quality of extracts and its products / Agriculture, Animal Health and Human Ecology / Ph. D. (Agriculture)

Greyia radlkoferi

Seed germination

Temperature

IBA

Cutting propagation

Pruning

Harvesting frequencies

1H-NMR metabolomics

Anti-tyrosinase

631.530968

Melianthaceae -- Quality -- South Africa

Botanical drug industry -- South Africa

Medicinal plants -- South Africa

Human skin color -- South Africa

Exploring Diverse Facets of Small Molecules by NMR Spectroscopy

Chaudhari, Sachin Rama

January 2014

The thesis entitled “Exploring Diverse Facets of Small Molecules by NMR Spectroscopy” consists of six chapters. The main theme of the thesis is to exploit one and two dimensional NMR methodologies for understanding the diverse facets of small organic molecules, such as, weak intra- and inter- molecular interactions, chiral discrimination, quantification of enantiomeric excess and assignment of absolute configuration. Several new pulse sequences have also been designed to solve specific chemical problems, in addition to extensive utility of existing one and two dimensional NMR experiments. The results obtained on different problems, are discussed under six chapters in the thesis. The brief summary of each of these chapters is given below. Chapter 1 begins with the discussion on the importance of small molecules and their various facets, the analytical techniques available in the literature to study them. The role of NMR spectroscopy as powerful analytical technique to understand the diverse facets of organic molecules and their importance is set out in brief. A short introduction to the basic principles of NMR, the interaction parameters, the commonly employed one and two dimensional homo- and herero- nuclear NMR experiments are also given. The basic introduction to product operators essential for understanding the spin dynamics in the developed pulse sequences is given. The application of diffusion ordered spectroscopy (DOSY), the general problems encountered in the analysis of combinatorial mixtures and the matrix assisted method in circumventing such problems are discussed. Chapter 2 focuses on the chiral discrimination and the measurement of enatiomeric excess. The NMR approach to discriminate enantiomers using chiral auxiliaries such as, solvating agents, derivatizing agents, lanthanide shift reagents, the choice of such auxiliaries and the limitations are discussed in detail. The in-depth discussion on the new protocols developed using both the solvating and derivatizing agents for enantiomeric discrimination of chiral amines, hydroxy acids and diacids are discussed. The new three-component protocols that serve as chiral derivatizing agents for the discrimination of primary amines, diacids and hydroxy acids are discussed. Also the role of organic base such as DMAP in the chiral discrimination is explored for discrimination of acids using BINOL as a chiral solvating agent. Accordingly the discussion is classified into two sections. In the first section the protocol developed utilizing an enantiopure mandelic acid, a primary amine substrate and 2-formylphenylboronic acid that is ideally suited for testing the enantiopurity of chiral primary amines is discussed. The broad applicability of the protocols for testing enantiopurity has been demonstrated on number of chiral molecules using 1H and 19F NMR. The second section contains the results on the new concept developed for discrimination of hydroxy acids. The strategy involves the formation of three component protocol using chiral hydroxy acid, R-alphamethylbenzylamine and 2-formylphenylboronic acid for 1H-NMR discrimination of diacids. The section also includes the utility of ternary ion-pair complex for the discrimination of acids. The ternary ion-pair not only permitted the testing of enantiopurity of chiral acids, but is also found useful for the measurement of enantiomeric excess. Chapter 3 discusses the utilization of the developed three-component protocols for the assignment of absolute configurations of molecules of different functionality. The protocols for the assignments of absolute configuration of primary amines using 2-formylphenylboronic acid and mandelic acid yielded the substantial chemical shift differences between diastereomers. The consistent trend in the direction of change of chemical shifts of the discriminated proton(s) gave significant evidence for employing them as parameters for the assignment of spatial configuration of primary amines. Another protocol using 2-formylphenylboronic acid, hydroxy acids and enantiopure alphamethylbenzylamine permitted their configurational assignment. In the second section a novel solvating agent, obtained by the formation of an ion-pair complex among enantiopure BINOL, DMAP and chiral hydroxy acid for the assignment of the spatial configuration of hydroxy acids is discussed. Chapter 4 focuses on the development of novel NMR methodologies, and also the utility of existing two-dimensional experiments for addressing certain challenging problems. This chapter has been divided into three sections. In Section-I the utilization of well-known homonuclear 2D-J-resolved methodology for unravelling the overlapped NMR spectra of enantiomers, an application for chiral discrimination and the measurement of enantiomeric excess is discussed. The utilization of the chiral auxiliaries, such as, chiral derivatizing agents, chiral solvating agents and lanthanide shift reagents permits enantiodiscrimination and the measurement of excess of one form over the other. Nevertheless many a times one encounters severe problems due to small chemical shift difference, overlap of resonances, complex multiplicity pattern because of the presence of number of interacting spins, and enormous line broadening due to paramagnetic nature of the metal complex. This section is focused on combating such problems utilizing 2D-J-1JNH resolved spectroscopy where a 450 tilting of the spectrum in the F2 dimension, yielded the pure shift NMR spectrum. The method circumvents several problems involved in chiral discrimination and allows the accurate measurement of enantiomeric excess. In Section-II, the development of novel NMR experimental methodology cited in the literature as C-HetSERF and its application for the study of symmetric molecules, such as, double bonded cis- and trans- isomers, and extraction of magnitudes and signs of long range homo- and hetero- nuclear scalar couplings among chemically equivalent protons in polycylic aromatic hydrocarbons is discussed. The extensive utility of the new pulse sequence has been demonstrated on number of symmetric molecules, where the conventional one dimensional experiment fails to yield spectral parameters. In section III, yet another novel pulse sequence called RES-TOCSY developed for unravelling of the overlapped NMR spectrum of enantiomers and the measurement of enantiomeric contents, has been utilized for the accurate measurement of magnitudes and signs of 1H-19F couplings in fluorine containing molecules. The method has distinct advantages as the strengths of the couplings and their relative signs could be extracted on diverse situations, such as, couplings smaller than line widths, the spectrum where the coupling fine structures are absent. Chapter 5 covers the study of nature of intra- and inter- molecular hydrogen bond in amide and its derivative. The chapter is accordingly divided into two sections. In the first section the study of acid and amide hydrogen bonding is discussed and the hydrogen bonded interactions are probed by extensive utility of 1H, 13C and 15N-NMR. The temperature perturbation experiments, measurements of the variation in the couplings, monitoring of diffusion coefficients and the association constants, detection of through space correlation have given unambiguous evidence for the hydrogen bond formation. The results were also supported by DFT calculations. Similar interaction in the solid state has also been derived by obtaining the crystal structure of complex phenylacetic acid with benzamide. In the second section of the chapter the hydrogen bond interaction of organic fluorine in trifluoromethyl derivatives of benzanilides has been explored and the involvement of CF3 group in the hydrogen bonding has been detected. The evidence for the participation of CF3 group in hydrogen bond has been confirmed by number of experiments, such as, the detection of through space couplings, viz., 1hJFH, 1hJFN, and 2hJFF , where the spin polarization between the interacting spins is transmitted through hydrogen bond, the temperature and solvent dependent studies, variation in the 1JNH and two dimensional heteronuclear correlation experiments. In an interesting example of a molecule containing two CF3 groups situated on two phenyl rings of benzanilide, the simultaneous participation of fluorines of two CF3 groups in hydrogen bond has been detected. The confirmatory evidence for such an interaction, where hydrogen bond mediated couplings are not reflected in the NMR spectrum, has been derived by 19F−19F NOESY. Significant deviations in the strengths of 1JNH, in addition to variable temperature, and the solvent induced perturbation studies yielded additional evidence. The NMR results are corroborated by both DFT calculations and MD simulations, where the quantitative information on different ways of involvement of fluorine in two and three centered hydrogen bonds, their percentage of occurrences, and geometries have been obtained. The hydrogen bond interaction energies have also been calculated. The study revealed the rare observation and the first example of the C-F…H-N hydrogen bond in solution state in the molecules containing CF3 groups. Chapter 6 focuses on the mixture analysis using the diffusion ordered spectroscopy (DOSY). High Resolution-DOSY works when the NMR spectrum is well resolved and the diffusion coefficients of the combinatorial mixtures are substantially different from each other. DOSY technique fails when the mixture contains the molecules of nearly identical weights and similar hydrodynamic radii. Thus, the positional isomers, enantiomers consequent to their nearly identical rates of diffusion, are not differentiated. Some of these problems can be overcome by Matrix-Assisted Diffusion Order Spectroscopy (MAD-spectroscopy), where an external reagent acts as a matrix and aids in their diffusion edited separation, provided the molecules embedded in it possess differential binding abilities with the matrix. Such different binding properties of the matrix are the basis for resolution of many isomeric species. In the present study three different novel auxiliaries, micelles-reverse micelles, crown ether and cyclodextrin are introduced for the resolution of positional isomers, double bonded isomers, viz., fumaric acid and maleic acid and also enantiomers. Accordingly, the results of each of these studies are discussed in three different sections.

Nuclear Magnetic Resonance Spectroscopy

Molecular Spectroscopy

Nuclear Magnetic Resonance

Chiral Discrimination

Chirality (Chemistry)

Hydrogen Bonding

Acid-Amide Hydrogen Bonding

Small Organic Molecules

Diffusion Ordered Spectroscopy

1H NMR

Chiral Carboxylic Acid

NMR Spectroscopy

NMR Spectrum

Analytical Chemistry

THE SYNTHESES, CHARACTERIZATIONS, & STRATEGIES OF HIGH-VALUE, DIVERSE, ORGANIC COMPOUNDS

Caesar D Gomez (16650408)

27 July 2023

<p>  </p> <p>Organic synthesis is the application of one or more reactions to the preparation of a particular target molecule, and can pertain to a single-step transformation or to a number of sequential chemical steps depicted by a scheme overall. The selection of a reaction or series of reactions while considering chemo-, regio-, and stereoselectivities in addition to protecting group strategies & redox manipulations highlights the complexity in designing & executing a synthetic plan while making a judgement about what is the most effective and efficient plan to synthesize any given chemical compound among numerous available options. To this end, chemical synthesis is the unifying theme of this thesis & was utilized and strategically applied to construct increasingly complex and diverse molecular architectures. </p> <p>Being the precise science that organic chemistry is, this discipline extends into many areas such as technology, biology & medicine, and even into the fine arts since it fosters unparalleled creativity and imagination in its practice. Research foci in chemical synthesis can encompass both the discovery and development of powerful reactions and the invention of strategies for the construction of defined target molecules, natural or man-made, more or less complex. Studies in the former area, synthetic methodology, fuel and enable studies in the latter area, target molecule and total synthesis campaigns, where the latter area offers a testing ground for the former. Consequently, the bulk of this research work is in organic methodology and will be covered in greater depth during chapters 2 and 3 where strategies, optimizations, & analyses are elaborated upon in light of searching & navigating the vast body of chemical literature in an effort to broaden and strengthen one's laboratory expertise as a synthetic chemist. Lastly, chapter 4 focuses not on traditional synthesis but on organic structure analysis relying on various techniques such as nuclear magnetic resonance (NMR), infrared (IR), ultraviolet-visible (UV-Vis) spectroscopy in combination with mass spectrometry (MS) and/or X-ray crystallography to hypothesize and confirm established structures, specifically phenolic oligomers. An ability to use spectroscopic data to evaluate organic structures by combining practical experience with fundamental knowledge will serve as a hallmark skill in one’s ability to problem-solve as an organic chemist.</p>

Natural products and bioactive compounds

Organic chemical synthesis

Physical organic chemistry

Organic Synthesis

Mechanism

Scheme

Yield

Structure

1H NMR Spectroscopy

13C NMR Spectroscopy

Target Molecule

Starting Material

Pathway

Enzyme

Strategy

Application

Compound

Chemistry

Reaction

Diastereomer

Enantiomer

Regioisomer

Medicinal

Intermediate

Polymer

Oligomer

Selectivity

Methodology

Step(s)

Analysis