Global ETD Search

1111	Cyclopropanes to spirocycles : a study of Versatile B‒N Motifs Siddiqui, Saher Hasan 09 1900 (has links) Les dérivés cyclopropanoïques sont des composés importants dans plusieurs domaines tels que la synthèse organique, la chimie médicinale et la science des matériaux. La synthèse asymétrique des dérivés cyclopropanoïques s'est de plus en plus concentrée sur la synthèse stéréocontrolée de cyclopropanes polysubstitutés qui arborent toute une gamme de substituants distincts. Ces méthodes permettent d’accéder à des synthèses divergentes pour préparer des composés pharmaceutiques comportant cette sous-unité. De plus, l'ouverture facile de ce cycle très tendu en fait une bonne cible pour étudier l'activation de la liaison C‒C. C’est pourquoi les cyclopropanes sont parmi les composés les plus attrayants et les plus diversifiés en synthèse organique. La synthèse divergente de dérivés cyclopropanoïques repose sur l'utilisation de précurseurs stables mais réactifs. L'une des réactions pour former des liaisons C‒C les plus couramment utilisées dans la fonctionnalisation à un stade avancé, est la réaction de couplage croisé de Suzuki-Miyaura. C'est l'une des raisons pour lesquelles les borocyclopropanes sont devenus des précurseurs synthétiques attrayants pour la fonctionnalisation et diversification des molécules complexes. L’accès à de telles molécules faciliterait la préparation de molécules cyclopropanoïques de structures diversifiées. Il est difficile de préparer des borocyclopropanes de manière énantiosélective. Dans cette thèse, une cyclopropanation énantiosélective d'acides boroniques protégés dérivés d'alcools allyliques a été réalisée via la réaction de cyclopropanation asymétrique en présence du ligand chiral de type dioxaborolane. Le développement de cette méthodologie a nécessité une modification de la décomplexation oxydative existante du dioxaborolane via son complexe dérivé de la diéthanolamine. Le protocole est maintenant applicable aux dérivés boronates qui incluent des groupements fonctionnels qui sont incompatibles avec les bases. Les borocyclopropanes tétracoordonnés obtenus permettent également la formation de liaisons C‒C et ont démontré une stabilité améliorée par rapport à leurs dérivés tricoordonnés. Une étude plus approfondie sur des complexes cyclopropylméthylamine-boranes (CAB) a démontré que ces derniers pouvaient conduire aux amine-boranes spirocycliques (SCAB). Ces SCAB ont été obtenus grâce à une cascade d'activation des CABs en utilisant le bis(trifluorométhanesulfonimide) (Tf2NH) comme initiateur. L'ouverture du cycle des CAB représente la première conversion des cyclopropanes en spirocycles contenant à la fois un N-spirocentre et un spiro amine-borane. Les amine-boranes ont démontré une activité pharmacologique telle que des propriétés anticancéreuses, anti-inflammatoires et anti-ostéoporotiques. L'incorporation de spirocycles dans un motif augmente le caractère sp3 et la chiralité inhérente. Les SCAB rendent alors des candidats attrayants pour la conception de médicaments. La réaction de SCAB avec de Tf2NH en quantités stoechiométriques a donné un complexe SCAB•NTf2 qui est capable de réduire les fonctions cétone, aldéhyde, imine, nitrobenzène, nitrosobenzène, anthracène, indole et aryl méthyl éther. Le complexe SCAB•NTf2 est également capable de réduire le diphénylacétylène de manière Z-sélective en cis-stilbène. Des études spectroscopiques approfondies ont donné plus d'informations sur la structure de SCAB•NTf2 et nous ont permis de proposer un mécanisme de réduction des groupements fonctionnels ci-dessus. Les études spectroscopiques (RMN, IR et Raman) ont également révélé l'implication d'une liaison α-C‒H au bore dans une liaison hydrogène hypsochromique « improper hydrogen bond » avec [Tf2N]-. L'hyperconjugaison avec l’atome de bore, un acide de Lewis, est proposée, ce qui rend la liaison C‒H acide et donc suffisamment polarisée pour agir comme un donneur de pont hydrogène. / Cyclopropane derivatives are incredibly versatile building blocks used in organic synthesis, medicinal chemistry, and materials science. The asymmetric synthesis of cyclopropane derivatives has increasingly focused on achieving polysubstituted cyclopropanes with a range of distinct substituents and their use in divergent syntheses to access pharmaceutical compounds. Moreover, the ring-opening potential of the cyclopropane ring, due to its inherent strain, makes it a facile target for C‒C bond activation and one of the most attractive and diverse cycloalkanes in organic synthesis. Divergent synthesis of cyclopropanes relies on stable pre-installed handles on cyclopropanes that can be activated readily. One of the most common C‒C bond formation approaches used in late-stage functionalization is the Suzuki-Miyaura cross-coupling reaction. As a result, borocyclopropanes have become attractive synthetic building blocks for their use in late-stage functionalization. Methods for the enantioselective synthesis of borocyclopropanes are scarce. In this thesis, the first enantioselective cyclopropanation of an allylic alcohol bearing a tetracoordinate boronate has been achieved via the Charette dioxaborolane-mediated enantioselective cyclopropanation reaction. The development of our method required modification of the existing oxidative decomplexation of dioxaborolane via diethanolamine. The protocol has now been expanded to include boronates and base-sensitive functionalities. The tetracoordinate borocyclopropane obtained was also shown to undergo C‒C bond formation and demonstrated enhanced stability compared to its tricoordinate boronate derivative. Further investigation of boron tethered cyclopropanes led to the discovery of the unique transformation of cyclopropane amine-boranes (CABs) to spirocyclic amine-boranes (SCABs). SCABs were obtained through a cascade activation of CAB via bis(trifluoromethane)sulfonimide (Tf2NH). The ring-opening of CABs represents the first conversion of cyclopropanes to spirocycles containing an N-spirocenter and furthermore an amine-borane spirocore. Amine-boranes have shown pharmacological activity such as anti-cancer, anti-inflammatory, and anti-osteoporotic properties. Incorporating spirocycles into a motif increases sp3 character and inherent chirality, rendering SCABs as attractive candidates for drug design. The reaction of SCAB with stoichiometric amounts of Tf2NH resulted in a SCAB•NTf2 complex that was found to be able to reduce ketone, aldehyde, imine, nitrobenzene, nitrosobenzene, anthracene, and indole functionalities as well as demethylate aryl methyl ethers. The SCAB•NTf2 complex was also capable of reducing diphenylacetylene in a Z-selective manner to cis-stilbene. In-depth spectroscopic studies revealed the structure of SCAB•NTf2 and a mechanism for the reduction of the above functionalities is proposed. The spectroscopic studies (NMR, IR and Raman) revealed the involvement of an α-C‒H bond to boron in improper hydrogen bonding with [Tf2N]-. Hyperconjugation to the Lewis acidic boron is proposed to make the C‒H bond acidic and therefore polarized enough to act as a hydrogen bond donor. Simmons-Smith Cyclopropanation Borocyclopropanes Cyclopropanes Amine-Boranes Spirocycles N-Spirocentre Conception de Médicament Agent Réducteur Liaison Hydrogène Liaison Hydrogène Hypsochromique N-Spirocenter Drug Design Reducing Agent Hydrogen Bonding Improper Hydrogen Bonding
1112	Jonbindning i svenska läromedel : Hur begreppet presenteras i läromedel och hur de kan påverka alternativa föreställningar Ragagnin, Gianna January 2016 (has links) Syftet med det här arbetet är att få en ökad insikt om hur begreppet jonbindning presenteras isvenska läromedel för gymnasieskolan. Läromedel som analyserats är läroböcker och didaktiskavideoklipp. Studien omfattar en undersökning om vilka element i läromedel förhåller sig till envetenskaplig representation och vilket innehåll som istället är känt i ämnesdidaktisk litteratur för attskapa alternativ förstärka missuppfattningar kring jonbindning. I studien analyseras dessutomskillnaderna mellan innehållet i böcker och videoklipp. Detta genomfördes genom en komparativinnehållsanalys.De flesta läromedel visar att den centrala idén är elektronövergången mellan en metall och enickemetall, ofta kopplat till visuella representationer av jonpar. Den här representationen kan bidratill missuppfattningen att jonföreningars består av diskreta molekylära enheter. I hälften avläromedel beskrivs otydligt att den elektrostatiska interaktionen är den drivande kraften ijonbindning. Läroböckerna har en mer homogen utformning och bättre grafiska lösningar, medanvideoklipps kvalitet och innehåll är mer varierad.Vissa videoklipp visar att det är möjligt att förklara jonbindningen utan att användaelektronövergången och bildning av jonpar. Man kan spekulera om lärarna som producerade demest didaktiska videoklippen har då varit medvetna om den vanligaste problematiken som orsakarmissuppfattningar om jonbindningen. upper secondary school didactic text analysis textbook analysis comparative text analysis chemical bonding ionic bonding video alternative conceptions gymnasiekemi kemididaktik läromedelsanalys textanalys komparativ innehållsanalys kemisk bindning jonbindning videoklipp alternativa uppfattningar Educational Sciences Utbildningsvetenskap
1113	Halogen bonding interlocked host systems for recognition and sensing of anions Mullaney, Benjamin R. January 2014 (has links) This thesis describes the synthesis of halogen bonding receptors for integration within interlocked anion host systems. Chapter 1 introduces the field of supramolecular chemistry, with a particular focus on anion recognition and sensing, halogen bonding, and the synthesis of mechanically interlocked structures. Chapter 2 describes the preparation and anion binding properties of carbazole-based receptor molecules. A systematic anion binding study on a series of halogen- and hydrogen-bonding 3,6-bis-triazolium carbazole acyclic receptors is described initially, followed by the development of a halogen bonding rotaxane. The anion and metal complexation properties of acyclic and macrocyclic systems incorporating the 1,8-bis-triazole carbazole motif are also presented. Chapter 3 details the synthesis and anion complexation investigations of halogen and hydrogen bonding naphthalene-based acyclic and interlocked rotaxane host molecules. Chapter 4 presents receptors based on the 4,4'-bis-triazole-2,2'-bipyridyl motif. A halogen bonding rhenium(I) bipyridyl complex is exploited in the development of a rotaxane host system which optically senses anions via luminescence purely through halogen bonding interactions. The anion recognition and sensing properties of diquat-based receptors are also investigated, and shown to exhibit optical and electrochemical responses to anions. Chapter 5 summarises the major conclusions from Chapters 2-4. Chapter 6 describes the experimental procedures used in the work, and includes characterisation data for the synthesised compounds. Supplementary information relating to crystallographic data, and absorption, luminescence and electrochemical studies, is provided in the Appendices. 546
1114	Trösta eller tysta? : En essä om barns rätt till sina känslor Bergnor, Emma January 2016 (has links) This essay is based on two selfexperienced situations. I examine my role as a preschool educationalist where children are prevented from expressing their emotions freely. The essay opens with a description of a middaysnack and the other story tells about a girl who is not allowed to decide herself when her sadness ends. The purpose of my examination is to problematize and reflect around the educationalists and my own encountering of the children in my stories. What does it mean to be a good educationalist when encountering children who express strong feelings? Which norms are created in the group of children when the individuals consistently are met by a silencing behaviour when in need of comforting? The situations themselves are not unique, they appear in different settings relatively often. I will also reflect on my own practical knowledge in relation to the stories as well as set my thoughts against the regulatory documents regarding swedish preshool. These thoughts will be examined in this essay against theories such as relation competence, children's emotional development and theories surrounding shame and norms. / Den här essän är baserad på två självupplevda situationer. Jag undersöker min roll som förskolepedagog i situationer där barn hindras från att uttrycka sina känslor fritt. Essän inleds med en beskrivning av ett mellanmål och den andra berättelsen handlar om hur en flicka inte tillåts avgöra själv när hennes ledsenhet är slut. Syftet med min undersökning är att problematisera och reflektera kring pedagogernas och mitt eget bemötande av barnen i mina berättelser. Vad innebär det att vara en god pedagog i mötet med barn som uttrycker starka känslor? Vilka normer skapas i barngruppen när individerna konsekvent möts av ett tystande beteende då de är i behov av tröst? Situationerna är i sig inte unika, utan de förekommer i olika former relativt ofta. Jag kommer också reflektera över min egen praktiska kunskap i förhållande till berättelserna samt så ställer jag min reflektion mot min tolkning av styrdokumentens krav gällande den svenska förskolan. Jag använder mig av teorier som relationskompetens, barns känslomässiga utveckling och teori om skam och normer. practical knowledge relationship shame bonding empathy identity security norm preschool praktisk kunskap relation skam anknytning identitet trygghet norm förskola
1115	Chemical Bonding Models and Their Implications for Bonding-Property Relations in MgAgAs-Type and Related Compounds Bende, David 12 April 2016 (has links) (PDF) In this work, chemical bonding models are developed and extended by the aid of the quantum-chemical position-space analysis. The chemical bonding models are then utilized to rationalize and predict the structure and conducting properties of MgAgAs-type and other intermetallic compounds. Additionally, new position-space bonding indicators are developed. Chemische Bindung MgAgAs Typ quantenchemische Positionsraumanalyse Chemical Bonding MgAgAs type quantum chemical position space analysis ddc:540 rvk:VE 5307
1116	Structure, Bonding and Chemistry of Water and Hydroxyl on Transition Metal Surfaces Andersson, Klas January 2006 (has links) <p>The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrotron based x-ray photoelectron- and x-ray absorption spectroscopy along with density functional theory calculations mainly form the basis of the results. Conditions span the temperature range 35 - 520 K and pressures from ultra-high vacuum (~10 fAtm) to near ambient pressures (~1 mAtm). The results provide, e.g, new insights on the importance of hydrogen bonding for surface chemical kinetics.</p><p>Water adsorbs intact on the Pt(111), Ru(001) and Cu(110) surfaces at low temperatures forming 2-dimensional wetting layers where bonding to the metal (M) mainly occurs via H<sub>2</sub>O-M and M-HOH bonds. Observed isotope differences in structure and kinetics for H<sub>2</sub>O and D<sub>2</sub>O adsorption on Ru(001) are due to qualitatively different surface chemistries. D<sub>2</sub>O desorbs intact but H<sub>2</sub>O dissociates in kinetic competition with desorption similar to the D<sub>2</sub>O/Cu(110) system. The intact water layers are very sensitive to x-ray and electron induced damage.</p><p>The mixed H<sub>2</sub>O:OH phase on Ru(001) consists of stripe-like structures 4 to 6 Ru lattice parameters wide where OH decorates the edges of the stripes. On Pt(111), two different long-range ordered mixed H<sub>2</sub>O:OH structures are found to be inter-related by geometric distortions originating from the asymmetric H-bond donor-acceptor properties of OH towards H<sub>2</sub>O.</p><p>Water adsorption on Cu(110) was studied at near ambient conditions and compared to Cu(111). Whereas Cu(111) remains clean, Cu(110) holds significant amounts of water in a mixed H<sub>2</sub>O:OH layer. The difference is explained by the differing activation barriers for water dissociation, leading to the presence of OH groups on Cu(110) which lowers the desorption kinetics of water by orders of magnitude due to the formation of strong H<sub>2</sub>O-OH bonds. By lowering the activation barrier for water dissociation on Cu(111) by pre-adsorbing atomic O, generating adsorbed OH, similar results to those on Cu(110) are obtained.</p> core-level spectroscopy surface chemistry water hydroxyl metal surfaces adsorption structure hydrogen bonding Chemical physics Kemisk fysik
1117	Transient liquid phase bonding of dissimilar single crystal superalloys Olatunji, Oluwadamilola 05 December 2016 (has links) Transient liquid phase (TLP) bonding has proven to be the preferred method for joining extremely difficult-to-weld advanced materials, including similar and dissimilar superalloys. In this work, an approach that combines experiments and theoretical simulations are used to investigate the effect of temperature gradient (TG) in a vacuum furnace on the temperature distribution in TLP bonded samples. When joining similar materials by this technique, the simulated results with experimental verifications show that, irrespective of where the samples are placed inside the vacuum furnace, a TG in the furnace can translate into a symmetric temperature distribution in bonded samples provided the diffusion direction is parallel to the source of heat emission. In addition, the effects of TLP bonding parameters on the joint microstructure were investigated during the joining of nickel-based IN738 and CMSX-4 single crystal (SX) superalloys. An increase in holding time and reduction in gap size reduces the width of eutectic product that forms within the joint region. It was also found that Liquid-state diffusion (LSD) can occur and have significant effects on the microstructure of dissimilar TLP bonded joints even though its influence is often ignored during TLP bonding. The occurrence of LSD produced single crystal joint when a SX and polycrystal substrate were bonded. This formation of a SX joint which cannot be exclusively produced by solid-state diffusion has not been previously reported in the literature. / February 2017
1118	ACID-BASE CATALYSIS IN PROTON-COUPLED ELECTRON TRANSFER REACTIONS (PCET): THE EFFECTS OF BRÖNSTED BASES ON THE OXIDATION OF GLUTATHIONE AND HYDROQUINONE Medina, Ramos Jonnathan 04 December 2012 (has links) This thesis presents the results and discussion of the investigation of the effects of Brönsted bases on the kinetics and thermodynamics of two proton-coupled electron transfer processes: the mediated oxidation of glutathione and the electrochemical oxidation of hydroquinone. Proton-coupled electron transfer (PCET) is the name given to reactions that involve the transfer of electron(s) accompanied by the exchange of proton(s). PCETs are found in many chemical and biological processes, some of current technological relevance such as the oxygen reduction reaction in fuel cells, which involves the transfer of four electrons and four protons (4e-, 4H+); or the splitting of water into protons (4H+), electrons (4e-) and oxygen (O2) efficiently achieved in photosynthesis. The study of PCET mechanisms is imperative to understanding biological processes as well as to developing more efficient technological applications. However, there are still many unanswered questions regarding the kinetic and thermodynamic performance of PCETs, and especially about the effect of different proton acceptors on the rate and mechanism of PCET reactions. This study aimed to investigate the effect of Brönsted bases as proton acceptors on the kinetics and thermodynamics of two model PCET processes, the oxidation of glutathione and hydroquinone. The analysis presented in this thesis provides insight into the influence of different proton acceptors on the mechanism of PCET and it does so by studying these reactions from a different angle, that one of the acid-base catalysis theory which has been successfully applied to the investigation of numerous chemical reactions coupled to proton transfer. We hope future research of PCETs can benefit from the knowledge of acid-base catalysis to better understand these reactions at a molecular level. Electrochemistry proton-coupled electron transfer glutathione hydroquinone base catalysis hydrogen bonding cyclic voltammetry Chemistry Physical Sciences and Mathematics
1119	Initial Studies on a Novel Target-Promoted DNA Alkylation System Xu, Ting 01 January 2007 (has links) A novel target-promoted DNA alkylation system was designed, which consists of a DNA intercalating/alkylating quinone methide (QM) precursor, a removable amine linker, and a sequence-specific delivery. The QM in this system was regenerated by eliminating the amino linker promoted by the hydrophobic interaction between the target DNA and the intercalating QM precursor. Three alkylation model systems (methoxyl polycyclic system, intramolecular hydrogen bonding system and biaryl system) were proposed and synthesized. The potential DNA QM alkylation was investigated by deoxyadenosine (dA) and deoxyguanosine (dG) alkylation with the biaryl system. Only one deoxynucleoside adduct was observed when dA or dG reacted with quinoline or naphthalene QM precursor, in which both dA adducts degraded with time, while dG adducts remained unchanged after 72h at room temperature. The quinoline dG adduct was fully characterized as quinoline dG N1 adduct by NMR techniques. Naphthalene dG was found as a 1:1 mixture of diastereomers. cellular biology biaryl system intramolecular hydrogen bonding methoxyl polycyclic system alkylation quinone methide Chemistry Physical Sciences and Mathematics
1120	The Effect of Pre-Cure Bracket Movement on the Shear Bond Strength of Metal Brackets Roberts, Thomas Luther, IV 01 January 2007 (has links) The effect on shear bond strength of bracket movement after seating the brackets and before light curing has not been reported. The purpose of this study was to determine the effect of linear and rotational pre-cure bracket movement on the shear bond strength of orthodontic brackets. 100 extracted human maxillary premolars were divided into 5 groups of 20 teeth each. The control group was bonded with no pre-cure bracket movement, and test groups were bonded with pre-cure bracket movement of 2 mm, 4 mm, 45¢ª or 180¢ª. Debonding force was measured with an Instron universal testing machine. Results were analyzed by ANOVA. Weibull survival analysis was used to determine the force required to produce a 5% bracket failure rate. Differences in the Adhesive Remnant Index (ARI) were analyzed by chi-square. No significant differences between groups were found for the mean shear bond strength or Weibull estimates. ARI scores differed significantly. shear bond strength pre-cure bracket movement bracket manipulation ARI weibull bonding study orthodontics Dentistry Medicine and Health Sciences Orthodontics and Orthodontology

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