The utility of sulfur (IV) and selenium (IV) imido compounds in organic synthesis.

Singer, Stephen Paul.

January 1977

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, 1977 / Includes bibliographical references. / Ph. D. / Ph. D. Massachusetts Institute of Technology, Department of Chemistry

Chemistry

Sulfur compounds.

Selenium compounds.

Diels-Alder reaction.

Amination.

Reaction of allene with phenyl azide

Khattak, Rangin Khan

01 January 1974

The purpose of this work was to investigate the reaction of allena and phenyl azide, in order to gain greater insight into the reaction of aryl azides with allenes.

Allene

Phenyl compounds

Diolefins

Alicyclic compounds

Organic compounds Synthesis

Physical Sciences and Mathematics

Synthesis and resolution of enantiomeric quaternary ammonium halides

Lee, Wei

01 January 1978

The purpose of the work described in this thesis was the synthesis of a new class of surfactants containing chiral cationic end groups and the synthesis of two chiral reactant molecules which would react in the presence of these surfactants. The structures of the surfactant and substrate molecules were designed to maximize their stereochemical interactions and in this way reveal details of the nature of micellar catalysis. In order to indicate why these structures were selected, several examples of micellar catalysis and the factors influencing it will be discussed in the following pages.

Halides

Surface active agents

Organic compounds Synthesis

Chemistry

Physical Sciences and Mathematics

The Influence of Selected Non-Bonded Interactions on Vicinal Carbon-Carbon Coupling Constants

Canada, Edward D. (Edward Dee)

05 1900

The body of information concerning carbon-carbon spin-spin coupling constants now includes a large number of coupling constants, the establishment of a dihedral angular dependence on 3JCC, and the application of 3JCC to conformational analysis. This study adds another dimension to the growing wealth of information associated with 13 C-NMR: the influence of some non-bonded interactions on 3JCC Four types of non-bonded interactions that could influence vicinal carbon-carbon NMR coupling constants were investigated. To facilitate the NMR studies, a variety of 13C-labeled compounds were synthesized.

vicinal carbon-carbon coupling constants

non-bonded interactions

Chemical bonds.

Coupling constants.

Chemical reactions.

Organic compounds -- Synthesis.

The Reaction of 2-Arylprop-1-En-3-Yltrimethylammonium Iodides With Sulfur Nucleophiles and Useful Synthetic Applications of These Adducts

Duranceau, Steven J.

01 January 1987

This report discusses research involving the reactions of 2-arylprop-1-en-3-yltrimethyl ammonium iodides with sulfur nucleophiles and the useful synthetic applications of the adducts formed. The present work may be subdivided into four sections: 1) reactions of several 2-arylprop-1-en-3-yltrimethylammonium iodides with benzenethiol; 2) reactions of several 2-arylprop-1-en-3-yltrimethylammonium iodides with the sodium salt of benzenesulfinic acid; 3) reactions of several 2-arylprop-1-en-3-yltrimethylammonium iodides with 2-mercapto-1-methyl imidazole; and 4) oxidation of 2-aryl-3-phenylthio-1-propenes and 2-aryl-3-phenylsulfonyl-1-propenes using sodium perborate. This report outlines the experimental conditions and procedures responsible for the synthesis of these products; in addition, this report describes the physical properties, NMR and IR spectra of the compounds synthesized, as well as offers a possible mechanism for their formation. The classes of compounds synthesized include: 2-aryl-3-phenylthio-1-propenes; 2-aryl3-phenylsulfonyl-1-propenes; 3-(2-aryl-l-propenyl)2-(1-methylimidazoyl)thioethers; and 2-aryl-2-acetoxy-3-phenylsulfonyl-1-propanols. Recommendations are listed to suggest future research in this area.

Ammonium salts

Chemical reactions

Organic compounds -- Synthesis

Chemistry

Other Chemistry

Physical Sciences and Mathematics

Synthesis and thermal study of a series of n-benzoyloxyamines and the scope and limitations of an amine oxidation process

Badescu, Valentina

01 July 2000

No description available.

Amines -- Synthesis

Organic compounds -- Synthesis

Pyrolysis

Thermal analysis

Chemistry

Physical Sciences and Mathematics

Development of Nucleophile Assisting Leaving Groups (NALGs) and new stereoselective reactions using titanium(IV) reagents

Unknown Date

We report here the development of very efficient sulfonate based leaving groups, termed Nucleophile Assisting Leaving Groups (NALGs), to accelerate the rate of nucleophilic substitution reactions involving poor nucleophiles and/or substrates traditionally considered too hindered to undergo nucleophilic attack. Indeed NALGs have shown exceptional ability in improving rate of nucleophilic substitution reactions. New very mild stereoretentive halogenations and azidation reactions have also been developed for secondary cyclic alcohols using NALGs involving titanium(IV) reagents. This reaction is particularly significant since the carbon-halogen bond is found widely in natural products and is used extensively as a synthesis intermediate. Azide is also a synthetically important functional group from which a variety of biologically important functional groups are conveniently obtained. Though stereoretentive chlorination and bromination reactions are known, we have developed, for the first time, a stereoretentive azidation reaction using titanium(IV) azide, a reagent not previously used in organic synthesis. During our development of stereoretentive reactions, we eventually developed very efficient, mild, two-step one-pot stereoretentive halogenations (chlorination and bromination) using titanium(IV) halides as catalysts or stoichiometric reagents. These reactions were found to be particularly efficient for cyclic alcohols. An efficient one pot stereoretentive amidation reaction for secondary cyclic alcohols is also reported. The important features of this reaction are that, for the first time, chlorosulfite (prepared in situ from alcohol using thionylchloride) has been used as a leaving group and titanium(IV) fluoride as an activator. / Utilization of those two reagents is unique as thionylchloride has never been used for nucleophilic substitution reactions except in chlorination procedures. In addition, this work has found new and creative applications for titanium (IV) fluoride, a reactant rarely used in organic synthesis. Further exploiting the unique reactivity of titanium(IV), reactions of alkenes with various nucleophiles have been developed with this reagent in both catalytic and stoichiometric quantities. It was observed that a-substituted aromatic conjugated alkenes dimerize to generate important indan class of compounds which are very important in the polymer industry. In addition, non conjugated unactivated alkenes react with various nucleophiles to yield the adduct. / by Deboprosad Mondal. / Thesis (Ph.D.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web.

Chemical reaction, Condition and laws of

Organic compounds--Synthesis

Chemical templates

Intermediates (Chemistry)

Organotransition metal compounds

Organic reaction mechanisms

Development and applications of nucleophile assisting leaving groups (NALGs) with Titanium (IV) and Grignard reagents

Unknown Date

We report here the development of very efficient aryl- and quinolinyl- sulfonate based leaving groups, termed Nucleophile Assisting Leaving Groups (NALGs), which substantially accelerate the rate of nucleophilic substitution reactions with metal halides. Detailed synthesis and kinetics study are described herein. Our synthesized NALGs have shown great reactivity towards poor nucleophiles and/or substrates traditionally considered too hindered to undergo nucleophilic attack. The abundant existence of halide, azide and amine in natural products demands new synthetic pathway. To fulfill this requirement, new mild stereoretentive halogenations (chlorination, bromination and iodination) reactions have also been developed for secondary cyclic alcohols using NALGs involving titanium (IV) reagents. The novel methodology can be extended to Azidation reactions as well with titanium (IV) azide, in which Ti (N3)4 is the first time being engaged in organic synthesis. Beased on the NALGs theory we discover the chlorosulfite can be a simplest NALG and applied as the intermediate in mild one-pot stereoretentive halogenations (chlorination and bromination) using titanium (IV) halides as catalysts or stoichiometric reagents. These reactions were found to be particularly efficient for cyclic alcohols. Finally, an efficient mild bromination and iodination reaction for primary and secondary alcohols with Grignard reagents is also reported. This reaction exhibits the generality with substrates with various leaving groups. The important features of this reaction are that, for the first time, bromide formation using Grignard reagents without the Cu (I) catalysts. / by Songye Li. / Thesis (Ph.D.)--Florida Atlantic University, 2011. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2011. Mode of access: World Wide Web.

Chemical kinetics

Chemical reaction, Condition and laws of

Organic compounds--Synthesis

Organotransition metal compounds

Intermediates (Chemistry)

Organic reaction mechanisms

Novel Strategies Towards Condenced Triazoles, Ferrocene Aminoacids, Conjugates And Selenosulfides

Sudhir, V Sai

11 1900

Chapter 1: Facile entry into triazole fused tetrahydropyrazinones from amines and amino acids. In this chapter, A practical and high yielding regioselective synthesis of several new, enantiopure 4,5,6,7-tetrahydro[1,2,3]triazolo[1,5-a]pyrazin-6-ones is described starting from primary amines in a three step reaction sequence (alkylation, acylation, one-pot displacement with azide followed by cycloaddition) employing constrained intramolecular ‘click’ reaction as the key step. The method obviates chromatographic purification of products. This methodology was also extended to the synthesis of diverse triazole fused tetrahydropyrazinones derived from amino acids. The scope of this methodology was extended by varying the alkyl as well as acyl components which furnished other triazole fused novel heterocycles. Chapter 2: Facile entry into triazole fused heterocycles via sulfamidate derived azido-alkynes. Direct synthesis of condensed triazoles from diverse sulfamidates by ring opening of sulfamidates with sodium azide followed by one-pot propargylation and cycloaddtion furnished title compounds. The methodogy in general has been demonstrated on diverse sulfamidates derived from amino acids, amino acid derivatives to obtain a variety of triazole fused scaffolds. In one example, a condensed triazole containing amino acid has been synthesized by ring opening of a sulfamidate derivative with propargyl amine. This methodology has also been extended to the synthesis of condensed triazoles derived from D-glucose. Chapter 3: ‘Click Chemistry’ Inspired Synthesis of Novel Ferrocene-Amino acid, Peptide Conjugates. In this chapter synthesis of a wide range of ferrocene-amino acid and peptide conjugates in excellent yield is presented. Conjugation is established via copper catalyzed Huisgen 1,3-dipolar cycloaddition. Two complementary strategies were employed for conjugation, one involving cycloaddition of amino acid derived azides with ethynyl ferrocene and the other involving cycloaddition between amino acid derived alkynes with ferrocene derived azides. Labeling of amino acids at multiple sites with ferrocene is discussed. A new route to 1, 1’ unsymmetrically substituted ferrocene conjugates is reported. A novel ferrocenophane is accessed via bimolecular condensation of amino acid derived bis alkyne with azide. The electrochemical behavior of a few selected ferrocene conjugates has been studied by cyclic voltammetry. Chapter 4: Click Chemistry inspired Synthesis of Ferrocene Amino acids and other derivatives. This work reports the synthesis of a wide range of ferrocenyl-amino acids and other derivatives in excellent yield. Diverse amino acid containing azides were synthesized and ligated to ferrocene employing click reaction to access ferrocenyl amino acids. Chiral alcohols, esters, diols amines containing azido group were tagged to ferrocene via click reaction to generateferrocene derived chiral derivatives. A novel strategy for direct incorporation of ferrocene into a peptide and a new route to 1, 1’ disubstituted ferrocene amino acid derivative are reported. Synthesis of mono and disubstituted ferrocene derivatives employing ferrocene derived azides is also described. Chapter 5: Convenient synthesis of Ferrocene Conjugates mediated by Benzyltriethylammonium Tetrathiomolybdate in a multi-step tandem process. The synthesis of a wide range of ferrocene derived sulfur linked mono and disubstituted Michael adducts and conjugates mediated by benzyltriethylammonium tetrathiomolybdate in a tandem process is reported. New route to access acryloyl ferrocene and 1,1’-bis acryloyl ferrocene is discussed. Conjugation of amino acids to ferrocene is established via their Nand Ctermini and also via side chain employing conjugate addition as key step to furnish monovalent and divalent conjugates. This methodology has also been extended to access several ferrocene carbohydrate conjugates. The electrochemical behavior of a few selected ferrocene conjugates has been studied by cyclic voltammetry. Finally, 1,1’-bis acryloyl ruthenocene was synthesized and it was utilized for the preparation of ruthenocene-carbohydrate conjugate in good yield. Chapter 6: Formation of Intramolecular S-Se bond mediated by tetrathiomolybdate. In this chapter, we have disclosed our preliminary results on reactivity of tetrathiomolybdate towards compounds containing both thiocyanate and selenocyanate functionalities. Several such compounds have been synthesized from the corresponding dibromides in two steps. We have observed selective reductive dimerization of selenocyanate over thiocyanate. In all the cases we also obtained seleno-sulfides via disulfide diselenide exchange reaction upon addition of excess tetrathiomolybdate. In the case of substrates on benzene scaffold, disulfide and diselenide bridged macrocycles were obtained apart from seleno sulfides whereas in the case of ferrocene derived substrates, formation of macrocycles was not observed. A tentative mechanism for the formation of these novel seleno sulfides is also discussed.(For structural formula pl see the pdf file)

Organic Synthesis

Triazoles

Ferrocene Aminoacids

Selenosulfides

Peptide Conjugates

Ferrocene Conjugates

Organic Compounds - Synthesis

Tetrahydropyrazinones

Heterocycles

Ferrocenyl Aminoacids

Tetrathiomolybdate

Organic Chemistry

Streamlined synthesis of taxol analogues

Rodriguez, Patricia Fernandez

January 2017

This thesis centres on the synthesis of taxol analogues via late-stage hydroxylation with P450 enzymes. To accomplish this, the taxane core, specifically taxa-4(5),11(12)-dien-2-one, was synthesised by classical synthetic methods, and subsequently oxidised using P450_BM3 mutants. Chapter 1 introduces enzymatic catalysis, and the advantages and disadvantages of its application to organic synthesis. Additionally, an overview of taxol, including its discovery, mode of action, biosynthesis and large-scale production, and a summary of the previously reported approaches to the taxane core are described. Chapter 2 details the problems encountered and solutions implemented when reproducing Baran's route to taxa-4(5),11(12)-dien-2-one. Furthermore, approaches to some of its intermediates and an alternative route to taxa-4(5),11(12)-dien-2-one, which is based on Baran's, are discussed. Chapter 3 describes the development of a new, practical and short synthetic route to taxa-4(5),11(12)-dien-2-one which, ultimately, led to 1,3-di-epi-taxa-4(5),11(12)-dien-2-one. Additionally, the application of this route to the synthesis of a model compound and attempts to convert this racemic synthesis into an enantioselective route are reported. Finally, the enzymatic oxidation of taxa-4(5),11(12)-dien-2-one and related molecules using P450_BM3 mutants is explored in Chapter 4. A preliminary study to determine the substrate enantioselectivity of the mutants is also described, along with the biological assays of the oxidised compounds produced during the study.