Malononitriles and cyanoacetamides containing isoxazoles and isoxazolines

Moores, Lee C.

13 August 2011

Isoxazoles and isoxazolines have been shown in the literature to be an important scaffold for pharmaceuticals and insecticides, as well as a source of synthetic versatility important to many syntheses. As a substitute for other aromatic rings, isoxazoles are known to change the efficacy of a given compound. Isoxazolines can be used as a precursor to many other functional moieties that may be effected during earlier synthetic steps. There are many routes to the heterocyclic moiety, allowing for their insertion in a wide range of molecules. Our group has previously reported a condensation of arylaldehydes with hydroxylamine to first make an aryloxime which can, after generating the nitrile oxide, then cyclize with an alkene or alkyne in situ and create the isoxazoline or isoxazole, respectively. The Knoevenagel Condensation reaction is identified as the addition of an activated methylene complex, malononitrile or cyanoacetamide, with a carbonyl followed by dehydration.. Our group has previously reported a facile, one-pot reductive alkylation of benzyl malononitriles. These compounds have been noted as having many insecticidal uses, as well as being potent pharmacophores. The scope of this project is to further explore and optimize the condensation of aryl aldehydes and methylene complexes. The condensed and reduced methylene complex will then be alkylated to join the heterocyclic moiety to reach the final disubstituted methylene product. A second approach will also be explored in which the monosubstituted malononitrile will first be alkylated with allyl or propargyl bromide, which can then undergo a 1,3-dipolar cycloaddition with a nitrile oxide. The library of compounds generated will be sent to collaborators to test the biological activity of the molecules. / Introduction and background literature -- Reactions of methylene complexes -- Synthesis of disubstituted methylene complexes. / Department of Chemistry

Nitriles--Synthesis

Azoles

Condensation products (Chemistry)

Alkylation

Regioselective Asymmetric a,a-Bisalkylation of Ketones via N-Amino Cyclic Carbamate Chiral Auxiliaries: Methodology Development and Application to the Total Synthesis of both (+)- and (-)-Stigmolone and Apratoxin D

Wengryniuk, Sarah Elizabeth

January 2012

<p>The &#945;-alkylation of ketones is a transformation of central importance to organic synthesis. Our lab recently introduced the N-amino cyclic carbamate (ACC) chiral auxiliaries for asymmetric ketone &#945;-alkylation. ACCs provide significant advantages over existing asymmetric ketone alkylation methods as they are easy to introduce, both deprotonation and alkylation can be run at relatively mild temperatures, stereoselectivity of alkylation is excellent and auxiliary removal is facile. A unique feature of ACCs is their ability to control the regioselectivity of deprotonation through what we have termed Complex Induced Syn-Deprotonation. In what follows, we describe several projects relating to the development and synthetic application of ACCs.</p><p>An optimized synthesis of our most successful ACC auxiliary was developed, including an improved method for the formation of the key N-N hydrazide bond. </p><p>A detailed mechanistic investigation of four ACC auxiliaries was conducted, examining the regio- and stereoselectivity of the alkylations at the level of the ACC hydrazone. This work culminated in a theoretical study of ACC auxiliaries, conducted through a collaboration with the Houk Group at UCLA. </p><p>We also describe the use of ACCs in the development of the first method for the regiocontrolled asymmetric &#945;,&#945;-bisalkylation of ketones. The method proceeds in excellent yield and with >99:1 diastereoselectivity. This method was also extended to the asymmetric &#945;,&#945;,&#945;',&#945;'-tetraalkylation of ketones, enabled by the development of a mild, epimerization-free LDA-mediated isomerization of the &#945;,&#945;-bisalkylated ACC hydrazones.</p><p>Additionally, we discuss three synthetic applications of the ACC &#945;,&#945;-bisalkylation methodology. We report an asymmetric formal synthesis of (+)- and (-)-stigmolone, as well as two approaches to the polyketide fragment of the novel cyclic depsipeptide apratoxin D, which have led to the completion of the first asymmetric total synthesis of apratoxin D.</p> / Dissertation

Organic chemistry

Alkylation

Apratoxin

Asymmetric

Ketone

The alkylation and thermal elimination of - chloro sulfoxides and the synthesis and rearrangement of epoxy sulfoxides /

Prachar Thamnusan.

January 1978

Thesis (M.Sc. (Organic Chemistry)) -- Mahidol University, 1978. / Supported by the University Development Commission.

Alkylation et transalkylation des aromatiques sur catalyseurs zéolithiques /

Jennane, Kamal El-

January 1900

Th. Univ.--Sci pétrolières--Univ. P. et M. Curie, 1991. / 1992 d'après la déclaration de dépôt légal. Résumé en anglais. Bibliogr. p. 158-163.

Interaction of [beta]-propiolactone and related alkylating agents with DNA, RNA, and protein of mouse skin

Colburn, Nancy H.

January 1968

Thesis (Ph. D.)--University of Wisconsin--Madison, 1968. / Includes reprints of two magazine articles by the author and others. Typescript. Vita. Includes bibliographical references.

Thiatriazines: Building Blocks Towards Molecular Materials

Kleisath, Elizabeth

January 2016

Post-functionalization of 3,5-bis(2-pyridyl)-4-hydro-1,2,4,6-thiatriazine (Py2TTAH) and its synthetic precursors have been explored through alkylation, arylation, and coordination. While alkylation was initially pursued at the central nitrogen atom of Py2TTAH, functionalization instead occurred on the sulfur atom. Consequently, the proclivity of the sulfur towards alkylation and arylation was studied. Neutral 3,5-bis(2-pyridyl)-S-methyl-1,2,4,6-thiatriazine (S-Me-Py2TTA) and 3,5-bis(2-pyridyl)-S-ethyl-1,2,4,6-thiatriazine were achieved via either anionic or cationic intermediates, and all isolable species were fully characterized. In addition, an aromatic derivative, 3,5-bis(2-pyridyl)-S-phenyl-1,2,4,6-thiatriazine was obtained through reactions using hypervalent iodide as an electrophile. Functionalization of Py2TTAH and S-Me-Py2TTA was also explored through coordination with iron. The synthesis and crystal structures of two different iron complexes are described. The incorporation of boron with Py2TTAH and its precursor, N-2-pyridylimidoyl-2-pyridylamidine was also considered. Both compounds afforded the same boratriazine ring. Overall, this thesis describes the groundwork for future functionalization of the Py2TTA framework, and its potential for molecular materials applications.

Thiatriazines

Molecular Materials

Alkylation

Arylation

Coordination

N-alkylation of amines via dehydrogenative coupling with alcohol catalyzed by the well-defined PN3 rhenium pincer complex

Alobaid, Nasser A.

04 1900

Transition metals are known to be the essential part in most of the catalysts, the heterogeneous and the homogenous catalysts; however, the ligands that attached to the metal centers can also alter the reactivity of the catalyst, and that is widely observed in nature. In our project, we are interested in the metal-ligand cooperation of a special type of ligand called the pincer ligand. Our focus is mainly on the tridentate Pincer Ligands with a pyridine backbone. Also, it contains a spacer that could be deprotonated and protonated during the aromatization and dearomatization process. Aromatization and dearomatization of the pincer ligand are responsible for the unique reactivity of the pincer complexes, especially in the hydrogenation and dehydrogenation reactions. Recently, huge developments have been made in the dehydrogenative coupling of aniline and benzyl alcohol via manganese pincer complexes. The most recent papers on that subject have been done by Beller in 2016[1], Kempe 2018 [2], and Hultzsch 2019 [3]. However, rhenium complexes have not been studied enough even though it is in the same seventh row of the transition metal. Therefore, the rhenium was studied as a possible alternative. Then, the synthesis of a well-defined PN3 rhenium complex was performed from the bipy-tBu ligand and the metal precursor Re(CO)5Cl. The ligand has a unique deformity as the phosphine sidearm is not attached to the metal center. Further investigation of the aniline and benzyl alcohol dehydrogenative coupling via PN3 rhenium pincer complex has been done. An optimal reaction condition was achieved, and the substrate scope was further examined with various alcohols and amines, and the result shows good to moderate conversion with decent selectivity towards the imine. Except for the secondary alcohols.

N-alkylation

Hydrogenation

Dehydrogenation

Coupling

Pincer

Rhenium

Development of New Methodologies for the Asymmetric Synthesis of Chiral Sulfoximines via C-S Bond Formation / 炭素―硫黄結合形成反応によるスルホキシイミンの不斉合成法の開発

Aota, Yusuke

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第22267号 / 理博第4581号 / 新制||理||1658(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)准教授 加納 太一, 教授 依光 英樹, 教授 大須賀 篤弘 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

sulfoximine

sulfinamide

asymmetric synthesis

alkylation

arylation

400

New Route to Synthesize Surface Organometallic Complexes (SOMC): An Approach by Alkylating Halogenated Surface Organometallic Fragments

Hamieh, Ali Imad Ali

02 1900

The aim of this thesis is to explore new simpler and efficient routes for the preparation of surface organometallic complexes (SOMC) for the transformation of small organic molecules to valuable products. The key element in this new route relies on surface alkylation of various halogenated surface coordination complexes or organometallic fragments (SOMF).

Alkylation

support

Catalysis

Organometallic

Metathesis

Alkanes

Lewis acid catalyzed reactions of 1-benzyl-2, 5-bis (trimethylsiloxy) pyrrole

Sandrin, Franco.

January 1985

No description available.

Alkylation.

Pyrroles -- Spectra.

Ethers.

Organic compounds -- Synthesis.