A study of adsorption on electrodes using infrared spectroscopy

Pender, C.

January 1987

No description available.

547

Benzonitrile adsorption study

Microwave study and molecular structure of fluorinated benzonitriles

Kamaee, Mahdi

13 January 2015

In this thesis work, the results of microwave investigation and structural determination for benzonitrile and some of its fluorinated derivatives are presented. The pure rotational spectra of the studied compounds including benzonitrile, 2-fluorobenzonitrile, 3-fluorobenzonitrile, 2,3-difluorobenzonitrile, 2,4-difluorobenzonitrile and pentafluorobenzonitrile were investigated. Measuring the rotational spectra of the parent molecules and the minor 13C and 15N isotopic species allowed the derivation of the substitution and effective structures for these molecules. Using the effective and the calculated ab initio structures, the geometries of the fluorinated derivatives were compared to that of the reference compound (benzonitrile) and the effect of single, double and full fluorination on the geometry of benzonitrile was examined. The observed distortions in the BN geometry caused by single, double and full fluorination were interpreted by hybridization theory and intramolecular non-bonded interactions. / February 2015

Microwave study

Rotational spectrum

Benzonitrile

Fluorinated benzonitriles

Molecular structure

Design, synthèse et caractérisation de dérivés aromatiques et hétérocycliques électrodéficitaires / Design, synthesis and characterization of electron-acceptor aromatic and heterocyclic derivatives

Qu, Yangyang

19 December 2018

Cette thèse porte sur la conception, la synthèse et la caractérisation de nouveaux dérivés accepteurs d'électrons. Elle se concentre sur l’étude des dérivés de la 1,2,4,5-tétrazine, mais contient également l’étude de dérivés du benzonitrile, précurseurs typiques de la préparation des 1,2,4,5-tétrazines et de dérivés de la pyridazine, les produits dérivés de la réaction de Diels – Alder à Demande Inverse (IEDDA) des dérivés de la tétrazine. De plus, les dérivés de 1,2,3,4-thiatriazole, en tant que produits imprévus de la synthèse de Pinner modifiée, sont également étudiés de manière approfondie. En raison des états de transfert de charge (CT) introduits dans le système donneur-accepteur, les dérivés préparés accepteur d'électrons présentent en général des propriétés photophysiques et électrochimiques intéressantes, et ont donc un intérêt particulier pour l'électronique organique.Le point culminant de cette thèse est le développement de méthodologies synthétiques dans chaque chapitre. En résumé, le chapitre 2 met en évidence une nouvelle approche synthétique sans métal pour les 1,2,4,5-tétrazines 3-monosubstituées, qui sont très utiles pour la chimie du click bioorthogonal. Le chapitre 3 décrit une stratégie de synthèse élaborée pour de nouveaux dérivés de benzonitrile donneur-accepteur qui présentent de la TADF, de l’ AIE et du mécanochromisme. Le chapitre 4 présente une étude détaillée de la réaction de couplage croisé Buchwald – Hartwig en tant que méthodologie de synthèse importante dans la synthèse de molécules de tétrazine. Le chapitre 5 décrit l'étude de la réaction à l'IEDDA comme un outil synthétique utile pour préparer des dérivés de pyridazine. Le chapitre 6 présente une nouvelle synthèse pratique de 1,2,3,4-thiatriazoles à partir de composés nitriles. / This PhD thesis deals with the design, synthesis and characterization of novel electron-acceptor derivatives. It is focused on the study of 1,2,4,5-tetrazine derivatives, but also involves the study of benzonitrile derivatives which are the typical precursors for the preparation of 1,2,4,5-tetrazines, and pyridazine derivatives which are the products derived from Inverse Electron Demand Diels–Alder (IEDDA) reaction of tetrazine derivatives. Moreover, 1,2,3,4-thiatriazole derivatives, as unpredicted products from modified Pinner synthesis, are also elaborately investigated. Due to the charge-transfer (CT) states introduced in the donor-acceptor system, the prepared electron-acceptor derivatives exhibit interesting photophysical and electrochemical properties, and therefore are of particular interest in organic electronics.The highlight of this thesis is the development of synthetic methodologies in each chapter. To sum up, Chapter 2 demonstrates a novel metal-free synthetic approach to 3-monosubstituted 1,2,4,5-tetrazines, which are highly useful for bioorthogonal click chemistry. Chapter 3 describes an elaborative synthetic strategy for novel donor-acceptor benzonitrile derivatives which exhibit TADF, AIE and mechanochromism. Chapter 4 presents a detailed study of Buchwald–Hartwig cross-coupling reaction as an important synthetic methodology in the synthesis of tetrazine molecules. Chapter 5 described the study of IEDDA reaction as a useful synthetic tool to prepare pyridazine derivatves. Chapter 6 presented a novel convenient one-pot synthesis of 1,2,3,4-thiatriazoles directly from nitrile compounds.

Tétrazine

Benzonitrile

Thiatriazole

Fluorescence retardée

Réaction de couplage

Réaction Diels–Alder

Tetrazine

Benzonitrile

Thiatriazole

Delayed fluorescence

Coupling reaction

Diels–Alder reaction

Syntheses of sulfanylphthalimide and xanthine analogues and their evaluation as inhibitors of monoamine oxidase and as antagonists of adenosine receptors / Mietha Magdalena van der Walt

Van der Walt, Mietha Magdalena

January 2013

Currently L-DOPA is the drug most commonly used for the treatment of Parkinson’s disease (PD). However, the long-term use of L-DOPA is associated with the development of motor fluctuations and dyskinesias. Treatment mainly addresses the dopaminergic features of the disease and leaves its progressive course unaffected. An optimal treatment would be a combination of both motor and non-motor symptom relief with neuroprotective properties. Two drug targets have attracted the attention for PD treatment, namely monoamine oxidase B (MAOB) and adenosine A2A receptors. MAO-B inhibitors enhance the elevation of dopamine levels after L-DOPA treatment, improve motor functions and may also possess neuroprotective properties. The antagonistic interaction between A2A and dopamine receptors in the striatopallidal pathway, which modulates motor behaviour, has also become a potential strategy for PD treatment. Blockade of the A2A receptor exerts both anti-symptomatic and neuroprotective activities and offer benefit for motor symptoms and motor complications. This thesis seeks to synthesize novel drug treatments for PD by exploring both MAO-B inhibitors and adenosine A2A receptor antagonists and to assess the prospects for drug modification to increase activity. MAO-B inhibitors - Based on a recent report that the phthalimide moiety may be a useful scaffold for the design of potent MAO-B inhibitors, the present study examines a series of 5-sulfanylphthalimide analogues as potential inhibitors of both human MAO isoforms. The results document that 5- sulfanylphthalimides are highly potent and selective MAO-B inhibitors with all of the examined compounds possessing IC50 values in the nanomolar range. The most potent inhibitor, 5- (benzylsulfanyl)phthalimide, exhibits an IC50 value of 0.0045 μM for the inhibition of MAO-B with a 427–fold selectivity for MAO-B compared to MAO-A. We conclude that 5-sulfanylphthalimides represent an interesting class of MAO-B inhibitors and may serve as lead compounds for the design of antiparkinsonian therapy. It has recently been reported that nitrile containing compounds frequently act as potent MAO-B inhibitors. In an attempt to identify additional potent and selective inhibitors of MAO-B and to contribute to the known structure-activity relationships of MAO inhibition by nitrile containing compounds, the present study examined the MAO inhibitory properties of series of novel sulfanylphthalonitriles and sulfanylbenzonitriles. The results document that the evaluated compounds are potent and selective MAO-B inhibitors with most homologues possessing IC50 values in the nanomolar range. In general, the sulfanylphthalonitriles exhibited higher binding affinities for MAO-B than the corresponding sulfanylbenzonitrile homologues. Among the compounds evaluated, 4-[(4-bromobenzyl)sulfanyl]phthalonitrile is a particularly promising inhibitor since it displayed a high degree of selectivity (8720-fold) for MAO-B over MAO-A, and potent MAO-B inhibition (IC50 = 0.025 μM). Based on these observations, this structure may serve as a lead for the development of therapies for neurodegenerative disorders such as Parkinson’s disease. Adenosine A2A receptor antagonism - Most adenosine A2A receptor antagonists belong to two different chemical classes, the xanthine derivatives and the amino-substituted heterocyclic compounds. In an attempt to discover high affinity A2A receptor antagonists for PD and to further explore the structure-activity relationships of A2A antagonism by the xanthine class of compounds, this study examines the A2A antagonistic properties of series of (E)-8-styrylxanthine, 8-(phenoxymethyl)xanthine and 8-(3- phenylpropyl)xanthine derivatives. The results document that among these series, the (E)-8- styrylxanthines are the most potent antagonists with the most potent homologue, (E)-1,3-dietyl- 7-methyl-8-[(3-trifluoromethyl)styryl]xanthine, exhibiting a Ki value of 11.9 nM. This compound was also effective in reversing haloperidol-induced catalepsy in rats. The importance of substitution at C8 with the styryl moiety was demonstrated by the finding that none of the 8- (phenoxymethyl)xanthines and 8-(3-phenylpropyl)xanthines exhibited high binding affinities for the A2A receptor. It was also concluded that (E)-8-styrylxanthines are potent A2A antagonists with particularly the 1,3-dietyl-7-methylxanthine substitution pattern being most appropriate for high affinity binding. Conclusion - The results of these studies have established that all of the sulfanylphthalimides, sulfanylphthalonitriles and sulfanylbenzonitriles examined display significant MAO-B inhibitory properties in vitro with IC50 values in the low μM to nM range. Good A2A receptor affinity was demonstrated by the xanthines containing a styryl moiety, while the phenoxymethyl and phenylpropyl xanthines exhibited poor activity. / Thesis (PhD (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2013

Parkinson’s disease

Monoamine oxidase

Phthalimide

Phthalonitrile

Benzonitrile

Inhibition

Adenosine A2A receptors

Antagonist

Xanthine

Syntheses of sulfanylphthalimide and xanthine analogues and their evaluation as inhibitors of monoamine oxidase and as antagonists of adenosine receptors / Mietha Magdalena van der Walt

Van der Walt, Mietha Magdalena

January 2013

Currently L-DOPA is the drug most commonly used for the treatment of Parkinson’s disease (PD). However, the long-term use of L-DOPA is associated with the development of motor fluctuations and dyskinesias. Treatment mainly addresses the dopaminergic features of the disease and leaves its progressive course unaffected. An optimal treatment would be a combination of both motor and non-motor symptom relief with neuroprotective properties. Two drug targets have attracted the attention for PD treatment, namely monoamine oxidase B (MAOB) and adenosine A2A receptors. MAO-B inhibitors enhance the elevation of dopamine levels after L-DOPA treatment, improve motor functions and may also possess neuroprotective properties. The antagonistic interaction between A2A and dopamine receptors in the striatopallidal pathway, which modulates motor behaviour, has also become a potential strategy for PD treatment. Blockade of the A2A receptor exerts both anti-symptomatic and neuroprotective activities and offer benefit for motor symptoms and motor complications. This thesis seeks to synthesize novel drug treatments for PD by exploring both MAO-B inhibitors and adenosine A2A receptor antagonists and to assess the prospects for drug modification to increase activity. MAO-B inhibitors - Based on a recent report that the phthalimide moiety may be a useful scaffold for the design of potent MAO-B inhibitors, the present study examines a series of 5-sulfanylphthalimide analogues as potential inhibitors of both human MAO isoforms. The results document that 5- sulfanylphthalimides are highly potent and selective MAO-B inhibitors with all of the examined compounds possessing IC50 values in the nanomolar range. The most potent inhibitor, 5- (benzylsulfanyl)phthalimide, exhibits an IC50 value of 0.0045 μM for the inhibition of MAO-B with a 427–fold selectivity for MAO-B compared to MAO-A. We conclude that 5-sulfanylphthalimides represent an interesting class of MAO-B inhibitors and may serve as lead compounds for the design of antiparkinsonian therapy. It has recently been reported that nitrile containing compounds frequently act as potent MAO-B inhibitors. In an attempt to identify additional potent and selective inhibitors of MAO-B and to contribute to the known structure-activity relationships of MAO inhibition by nitrile containing compounds, the present study examined the MAO inhibitory properties of series of novel sulfanylphthalonitriles and sulfanylbenzonitriles. The results document that the evaluated compounds are potent and selective MAO-B inhibitors with most homologues possessing IC50 values in the nanomolar range. In general, the sulfanylphthalonitriles exhibited higher binding affinities for MAO-B than the corresponding sulfanylbenzonitrile homologues. Among the compounds evaluated, 4-[(4-bromobenzyl)sulfanyl]phthalonitrile is a particularly promising inhibitor since it displayed a high degree of selectivity (8720-fold) for MAO-B over MAO-A, and potent MAO-B inhibition (IC50 = 0.025 μM). Based on these observations, this structure may serve as a lead for the development of therapies for neurodegenerative disorders such as Parkinson’s disease. Adenosine A2A receptor antagonism - Most adenosine A2A receptor antagonists belong to two different chemical classes, the xanthine derivatives and the amino-substituted heterocyclic compounds. In an attempt to discover high affinity A2A receptor antagonists for PD and to further explore the structure-activity relationships of A2A antagonism by the xanthine class of compounds, this study examines the A2A antagonistic properties of series of (E)-8-styrylxanthine, 8-(phenoxymethyl)xanthine and 8-(3- phenylpropyl)xanthine derivatives. The results document that among these series, the (E)-8- styrylxanthines are the most potent antagonists with the most potent homologue, (E)-1,3-dietyl- 7-methyl-8-[(3-trifluoromethyl)styryl]xanthine, exhibiting a Ki value of 11.9 nM. This compound was also effective in reversing haloperidol-induced catalepsy in rats. The importance of substitution at C8 with the styryl moiety was demonstrated by the finding that none of the 8- (phenoxymethyl)xanthines and 8-(3-phenylpropyl)xanthines exhibited high binding affinities for the A2A receptor. It was also concluded that (E)-8-styrylxanthines are potent A2A antagonists with particularly the 1,3-dietyl-7-methylxanthine substitution pattern being most appropriate for high affinity binding. Conclusion - The results of these studies have established that all of the sulfanylphthalimides, sulfanylphthalonitriles and sulfanylbenzonitriles examined display significant MAO-B inhibitory properties in vitro with IC50 values in the low μM to nM range. Good A2A receptor affinity was demonstrated by the xanthines containing a styryl moiety, while the phenoxymethyl and phenylpropyl xanthines exhibited poor activity. / Thesis (PhD (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2013

Parkinson’s disease

Monoamine oxidase

Phthalimide

Phthalonitrile

Benzonitrile

Inhibition

Adenosine A2A receptors

Antagonist

Xanthine

Luminescence of Benzonitrile, Monodeuterobenzonitriles, and Perdeuterobenzoitrile at 77°K in Solid Matrices

LeBel, Guy Laurent

11 1900

An abstract is not provided. / Thesis / Master of Science (MSc)

benzonitrile

monodeuterobenzonitrile

perdeuterobenzonitrile

solid matrix

luminescence

vibration

molecular geometry

molecular spectroscopy

Sub-millimeter Spectroscopy at the Confusion Limit

Graff, David L.

08 September 2010

No description available.

Chemistry

Physics

sub-millimeter spectroscopy

THz spectroscopy

benzonitrile

Stark modulation

cavity absorption

Proton Exchange Membrane Fuel Cell Systems Based on Aromatic Hydrocarbon and Partially Fluorinated Disulfonated Poly(Arylene Ether) Copolymers

Sankir, Mehmet

10 January 2006

This dissertation describes the past and recent progress in proton exchange membranes (PEM) for fuel cells. In particular the synthesis and characterization of materials for advanced alternative PEM were studied with an emphasis on structure-property and structure-property-performance relationships. The focus has included firstly a one-step synthesis and characterization of 3,3'-disulfonated 4,4'-dichlorodiphenyl sulfone comonomer. The procedure developed is adaptable for industrial-scale commercialization efforts. Secondly, the synthesis of aromatic nitrile containing poly (arylene ether sulfone) random copolymers was demonstrated. Various levels of disulfonation allowed the membrane characteristics to be investigated as a function of the membrane ion exchange capacity. The results favorably compare with the current state-of-the-art (Nafion™), particularly for direct methanol systems (DMFC). Thirdly, the mechanically and thermooxidatively stable copolymer membranes were blended with heteropolyacids producing nanocomposites which have potential in higher temperature fuel cell applications. Lastly, the basic PEM parameters such as water uptake, proton conductivity, and methanol permeabilities were controlled and presented as tunable properties as a function of molecular structure. This was achieved by in-situ control of chemical composition. The direct methanol fuel cell performance (DMFC) was much better than Nafion™. Hydrophobic surface properties of the membranes were improved by partial fluorination which made the Nafion™ bonded electrodes more compatible with the partially fluorinated copolymer membranes. The influence of surface enrichment had two important roles in increasing both initial and long term performance tests. The surface fluorine provided lower contact resistance and lower water uptake. The former was important for the initial tests and the latter provides for better long term performances. A delamination failure mechanism was proposed for the hydrocarbon membrane electrode assemblies (MEA) due to the large difference between water uptake of the catalyst layer and membrane and this was verified by a reduction in high frequency resistance (HFR) for the partially fluorinated systems. This thesis has generated the structure-property and structure-property-performance relationships which will provide direction for the development of next generation (PEM) materials. / Ph. D.

Sulfonation

Poly(arylene ether sulfone)

Fuel Cell

Proton Exchange Membrane

poly(arylene ether benzonitrile)

Fluorination