Stereoselective Cyclization of Functionalized 1,n-Diynes Mediated by [X-Y] Reagents [(R₂N)2B-SnR′₃]. Synthesis and Properties of Atropisomeric 1,3-Dienes

Kutney, Amanda Marie

02 November 2010

No description available.

Chemistry

borostannane

atropisomeric diene

bismetallative cyclization

diynes

helical chirality

heterobimetallic reagent

APPLICATIONS OF ENANTIOPURE SULFINIMINE DERIVED CHIRAL AMINE BUILDING BLOCKS FOR THE ASYMMETRIC SYNTHESIS OF TROPANE ALKALOIDS AND CYCLIC CIS BETA-AMINO ACID DERIVATIVES

Theddu, Naresh

January 2011

Chiral amines are ubiquitous in natural products and are found in many drugs and drug candidates. Enantiopure sulfinimines [RS(O)N=CHR1] are useful chiral building blocks for the stereoselective synthesis of amines and amine derivatives. The aim of this thesis research is to develop new methods to access chiral amine building blocks for applications in the synthesis of nitrogen-heterocycles including ring-substituted tropinones, tropanes, cyclic cis-beta-amino acid derivatives, and amino-cyclopentitols. / Chemistry

Chemistry

[3+2] Cycloaddition

Cyclic Nitrones

Intramolecular Mannich Cyclization

Prochiral Weinreb Amide Enolates

Sulfinimines

New Synthetic Approaches to Heterocyclic Compounds Based on Iridium-Catalyzed Transformations of C(sp³)-H Bonds / イリジウム触媒によるC(sp³)－H結合変換に基づくへテロ環化合物の新規合成手法開発

Yagi, Kaito

23 March 2023

京都大学 / 新制・課程博士 / 博士(工学) / 甲第24639号 / 工博第5145号 / 新制||工||1983(附属図書館) / 京都大学大学院工学研究科合成・生物化学専攻 / (主査)教授 杉野目 道紀, 教授 中尾 佳亮, 教授 藤原 哲晶 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Iridium-Catalyzed Reactions

C(sp3)–H Bond Activation

Heterocycles

Cyclization

Dehydrogenation

500

Efficient Syntheses of Strong Binding Cryptands and their Derivatives for Supramolecular Polymer Synthesis

Pederson, Adam Micheal-Paul

07 March 2009

Production of efficiently synthesizable, strongly associating crown ether-based cryptands is desired for pseudorotaxane complexation of bipyridinium guests to produce suprapolymers and supramolecularly-linked block copolymers. Cryptands based on bis(meta-phenylene)-32-crown-10 (BMP32C10) were synthesized. The functionality of phenylenemethanol-BMP32C10 cryptand III-3 (Ka = 2.0 x 104 M-1) did not negatively affect binding strength, although the strength of complexation is marginal to achieve the desired suprapolymers. The cryptand dimethylpyridyl-BMP32C10 IV-2 was synthesized in an attempt to improve over the binding ability of the pyridyl-BMP32C10 cryptand IV-1; instead, interesting host design insights were discovered as binding strengths were reduced over 1000-fold. The crystal structure of IV-2 shows acyl-aryl conjugation which limits the host's ability to accept guests. Synthesis of larger cis-di(carbomethoxybenzo)-3n-crown-n crown ethers was explored using the high concentration, template technique previously reported for cDB24C8 diester. cDB30C10 diester (V-1c) was produced in 93% yield; the desired pyridyl-cDB30C10 cryptand V-12 binds paraquat strongly (Ka = 1-2x105 M-1) and diquat stronger than any other host (Ka = 1.9x106 M-1), both in 1:1 fashions; association constants were measured by ITC. X-ray crystallography of the complexes shows the cryptand's para arm is too far away to interact with paraquat and the host has numerous bifurcated interactions with diquat, explaining the difference in binding strengths. Syntheses of the regioisomers of cDB27C9 diester was also explored; the cyclization yields (cDB27C9S, VI-2: 59% and cDB27C9L, VI-3: 44%) are lower, likely due to poor attack angles due to mismatched arm length in cyclization, than the equivalent length ethyleneoxy-armed cDB24C8 and cDB30C10. Modeling of the cryptand isomers, pyridyl-cDB27C9S and pyridyl-cDB27C9L, showed that the former should improve para arm interaction with paraquat, but should be sterically hindered for diquat and the latter should have a highly flexible, poorly preorganized interaction with either type of guest. ITC, MS, and crystallography data supported the predictions. Derivatization of the pyridyl-cDB30C10 cryptand V-12 was explored using chelidamic acid (VII-1). Schemes yielding alcohol, alkyl halide, alkyne, and TEMPO functionality were followed, but failed. Currently, functionalized cryptand derivatives have not been achieved, future directions are proposed. / Ph. D.

crown ether

cyclization

host-guest

molecular recognition

cryptand

paraquat

diquat

supramolecular polymer

polymer

Transition metal complexes of a versatile polyalkoxy oxazolidine-based ligand derived from in situ cyclization

Saleem, Ayaan, Kobielska, Paulina A., Harms, K., Katsikogianni, Maria, Telford, Richard, Novitchi, G., Nayak, Sanjit

09 April 2018

Yes / One-pot reaction between 8-hydroxyquinoline-2-carboxaldehyde (HQC) and tris(hydroxymethyl)aminomethane (TRIS) followed by in situ cyclization yielded an oxazolidine based ligand which produced four mononuclear complexes of MnII(1), CoII(2), NiII(3), ZnII(4), a tetranuclear iron (FeIII4) complex (5) and a trinuclear cobalt (CoIICoIII2) complex (6). Magnetic studies show dominant antiferromagnetic interaction in tetranuclear iron (FeIII4) complex 5 and presence of the slow relaxation of magnetisation in 6. The compounds were also studied for their antibacterial properties. The oxazolidine ligand (H3L2) of this study showed good antimicrobial activity not only against Gram-positive bacteria but against Gram-negative bacteria too. The antimicrobial efficacy of the metal complexes (1–6) is also reported.

8-hydroxyquinoline-2-carboxaldehyde

HQC

Tris(hydroxymethyl)aminomethane

TRIS

In situ cyclization

Ligand

Sensitivity of Offline and Inline Indicators for Fiber Stretching in Continuous Polyacrylonitrile Stabilization

Bogar, Mohsen Sadeghi, Wolf, Jan, Wolz, Daniel Sebastian Jens, Seidel-Greiff, Robert, Dmitrieva, Evgenia, Israel, Noel, Rosenkranz, Marco, Behnisch, Thomas, Müller, Michael Thomas, Gude, Maik

08 November 2024

In carbon fiber (CF) production, the stabilization process step is the most energy- and time-consuming step in comparison with carbonization and graphitization. To develop optimization routes for energy and productivity, the stabilization needs to be monitored continuously via inline analysis methods. To prognose the evolution of high-performance CF, the density of stabilized fibers has been identified as a robust pre-indicator. As the offline analysis of density is not feasible for inline analysis, a density-soft sensor based on the stabilization indices of Fourier Transform Infrared spectrum (FTIR)-analysis and Electron Paramagnetic Resonance (EPR) Spectroscopy could potentially be used for inline monitoring. In this study, a Polyacrylonitrile-based precursor fiber (PF) stabilized in a continuous thermomechanical stabilization line with varying stretching profiles was incrementally analyzed using density, FTIR-based relative cyclization index (RCI), and EPR-based free radical concentration (FRC). Our findings show RCI and EPR dependencies for density, correlated for RCI with sensitivity by stretching to cubic model parameters, while FRC exhibits linear relationships. Therefore, this study identifies two possible soft sensors for inline density measurement, enabling autonomous energy optimization within industry 4.0-based process systems.

info:eu-repo/classification/ddc/670

ddc:670

Bifunctional Enamine‐Metal Lewis Acid Catalysis and α-Enaminones for Cyclization Reactions

Davis, Jacqkis

08 1900

The use of enamines continues to be an important tool in organic syntheses as both a catalyst and reactant. The addition of metal catalysts coupled with enamine catalysis has generated many reactions that normally would not occur separately. However, catalysts' incompatibility is an issue that we wish to solve allowing new chemistry to occur without hindrance. The use of enamines has continued to be a well-studied area of organic chemistry, but the field is ripe for different types of enamines to gain the spotlight. Enaminones are enamines with both nucleophilic and electrophilic properties. They allow reactions that are normally not possible with enamines to become obtainable. Chapter 1 is a brief introduction on enamines and the reason they gained so much attention. Then ends with enaminones and what makes them interesting reactants. Chapter 2 described a new synthesis for the tricyclic synthesis of chromanes using a novel bifunctional catalyst system of enamine-metal Lewis acid giving great yields (up to 87 %yield) and excellent stereoselectivity (up to 99 % ee). Chapter 3 covered new reactions for ring-open cyclopropane (up to 94% yield), tetrahydroquinolinones (up to 84% yield) and enantiospecific tetrahydroquinolinones (up to 84% yield and 97% ee) using α-enaminone and donor-acceptor cyclopropanes. Finally, Chapter 4 focused a new method for synthesizing benzobicyclo[3.2.1]octanes with an added sterically bulky quaternary center and imine functionalization giving yields between 36-73% yield using α-enaminone with alkylidene malonates.

Bifunctional Catalysis

Enamine Catalysis

Metal Catalysis

α-Enaminone

Cyclization

Chemistry, Organic

Synthesis of the ABC fragment of pectenotoxin-4

Lipinski, Radoslaw Michal

January 2012

This thesis details the application of two synthetic methodologies, developed by the Donohoe group, to the synthesis of the ABC fragment of pectenotoxin-4, a macrolide marine natural product that consists of 19 stereogenic centres, three tetrahydrofuran rings, one spiroketal and one bicyclic ketal embedded within a 26-membered macrocycle. Pivotal to the developed synthetic route was the utilisation of an unprecedented cascade osmium catalysed oxidative cyclisation for the construction of two THF rings (the BC ring system). After successfully developing a model system for the synthesis of the AB anomeric 6,5 spiroketal, which involved the employment of a hydride shift initiated oxo carbenium ion formation followed by intramolecular spiroketalisation, the developed system was then applied to the fully elaborated synthesis of the ABC fragment. The synthesis of the ABC fragment of pectenotoxin-4 was completed in 20 linear steps, with an overall yield of 3.3%.

547

PREPARATION AND EVALUATION OF DECONSTRUCTION ANALOGS OF 7-DEOXYKALAFUNGIN AS AKT INHIBITORS

Korwar, Sudha

27 July 2012

Pyranonaphthoquinone lactones have been recently found to be selective inhibitors of the serine-threonine kinase AKT/PKB. AKT/PKB plays a major role in tumorigenesis, hence these compounds have a great potential to act as anti-cancer agents. They act by a novel bioreductive alkylation mechanism of inhibition of AKT/PKB. In this work, 7-deoxykalafungin, a pyranonaphthoquinone lactone and its deconstruction analogs were synthesized. The structural features of the compounds necessary to inhibit AKT1 potently and selectively were determined. It was observed that compounds with a pyran ring were more potent in inhibiting AKT1. Conversely, flexible compounds were found to be weak inhibitors of AKT1. Also, presence of a lactone ring was found to be favorable in inhibiting AKT1. Of the compounds tested, 7-deoxykalafungin was the most potent inhibitor of AKT1 (IC50 = 0.28 µM against AKT1) and compound 4-61 was the most potent inhibitor of PKA (IC50 = 0.43 µM against PKA).

7-Deoxykalafungin

AKT inhibitors

Heck coupling

Sharpless asymmetric dihydroxylation

Oxa-Pictet Spengler cyclization

Medicine and Health Sciences

Pharmacy and Pharmaceutical Sciences

Nouveaux systèmes réducteurs utilisant des hydrosiloxanes comme substituts des hydrures de bore et d’aluminium : Application à la réduction de fonctions azotées et oxygénées / New reducing systems using hydrosiloxanes as substitutes of boron and aluminum hydrides : Application to the reduction of nitrogenous and oxygenated organic functions

Pehlivan, Leyla

16 December 2012

Ces dernières années, les recherches industielles et académiques ont connu des bouleversements sansprécédents liés à la notion de Développement Durable. Le choix des matières premières, des réactions,des procédés, et la caractérisation du produit final obligent les industriels à repenser leur mode deproduction. Ce changement peut notamment s’effectuer par « la conception de produits et de procédéschimiques permettant de réduire ou d’éliminer l’utilisation et la synthèse de leurs substancesdangereuses. » Les travaux de recherche décrits dans cette thèse s’inscrivent dans ce contexte etconcernent la mise au point de nouveaux systèmes réducteurs utilisant des hydrosiloxanes commesubstituts des hydrures d’aluminium et de bore.Dans cet objectif, plusieurs systèmes réducteurs basés sur l’utilisation du 1,1,3,3-tétraméthyldisiloxane(TMDS) associé à un complexe métallique ont pu être développés au laboratoire. Selon la nature dumétal employé, les réductions sélectives de diverses fonctions organiques ont été effectuées. Ainsi, lefer (III) acétylacétonate associé au TMDS a permis la réduction de nitro aromatiques en anilinescorrespondantes ; le palladium sur charbon la synthèse d’alcoxysiloxanes à partir de cycles oxygénés,d’alcools ou de carbonyles ; les esters ont également été réduits en alcools par action d’un complexede molybdène ou de vanadium ; la réduction d’acides ainsi que la cyclisation de diacides ont pu êtreeffectuées à l’aide de tribromure d’indium et ce dernier complexe a également montré une bonneefficacité pour la réduction d’oxydes de phosphine. / In recent years, industrial and academic researches have experienced unprecedented changes related tothe concept of sustainable development. The choice of raw material, reactions, processes, andcharacterization of final products are constraining the industrials to rethink their production methods.This change can be accomplished by “the conception of chemical products and processes that reduceor eliminate the use and synthesis of hazardous materials.” The research work described in this thesisis focused on the development of new reducing systems using hydrosiloxanes as substitutes foraluminum and boron hydrides.In this context, several reducing systems based on the use of 1,1,3,3-tetramethyldisiloxane (TMDS)associated with a metal complex have been developed in the laboratory. Depending on the metal,selective reductions of various organic functions were performed. Thus, iron (III) acetylacetonate andTMDS allowed the reduction of aromatic nitro compounds; palladium on charcoal was used for thesynthesis of alcoxysiloxanes from oxygenated rings, alcohols or carbonyl compounds; esters were alsoreduced into alcohols by the action of a molybdenum or a vanadium complex; reduction of carboxylicacids as well as the cylization of dicarboxylic acids have been carried out using indium tribromide andthe latter complex also proved efficiency for the reduction of phosphine oxides derivatives

Alcoxysiloxane

Esters

Acides carboxyliques

Diacides

Amines

Cyclisation

Molybdène

Hydrosiloxanes

Alcoxysiloxane

Esters

Carboxylic acids

Diacids

Amines

Cyclization

Molybdenum

Hydrosiloxanes

547.03