Optical and radar studies of the nightide auroral ionosphere

Buchan, Maria Jane

January 1999

No description available.

551.5

Solar wind-magnetosphere coupling

A new asymmetric aryl-aryl coupling reaction and its application to the synthesis of novel liquid crystals

Crepy, Karen Viviane Lucile

January 2001

No description available.

547

Atropisomers; Isomers; Suzuki coupling

The Coupling Mechanism in the Organolithium-Organic Monofluoride Reaction

Carl, William P.

05 1900

In this work, the principal concern will be with the coupling reaction and it is anticipated that the other reactions referred to above will be considered further when products of the RX-R'Li reactions are discussed.

coupling mechanism

halogen-metal exchange

Efforts Towards the Cross Coupling of Acylsilanes and Electrophiles via a Metal-Catalyzed Brook Rearrangement

Heusser, Carolyn Andrea

January 2013

Thesis advisor: Jeffrey A. Byers / Chapter 1: There are a limited number of examples of metal-catalyzed Brook rearrangements in the literature, none of which involve ruthenium, rhodium, or iridium which are common ketone hydrogenation catalysts. The content of this chapter introduces the traditional Brook rearrangement and its advantages and disadvantages in chemical synthesis. Furthermore, the few examples of metal-catalyzed Brook rearrangements of acylsilanes and structurally similar moieties are discussed. Chapter 2: Utilizing a Brook rearrangement under hydrogenation or transfer hydrogenation conditions opens up a new area of catalytic reactivity that has not been fully explored. To our knowledge, metal complexes based on ruthenium and rhodium have never been shown to catalyze a Brook rearrangement of acylsilanes. This chapter describes the mechanistic implications of a Brook rearrangement under hydrogenation or transfer hydrogenation conditions as well as the first example of a ruthenium-catalyzed Brook rearrangement of aryl acylsilanes. Chapter 3: Pioneering work performed by Jeffrey Johnson and co-workers in the area of catalytic coupling of acylsilanes and various electrophiles showed that formation of new C-C bonds through a Brook rearrangement can be a powerful synthetic tool. In this chapter, we investigate an intermolecular coupling of aryl acylsilanes and aldehydes through a metal-catalyzed Brook rearrangement under transfer hydrogenation conditions to yield two synthetically useful motifs, specifically oxygenated bicyclic compounds. A reaction screen was performed on the coupling capabilities of these two species with various ruthenium and rhodium catalysts. The result of the screen was synthesis of a silyl ether acetal through employing the starting material as the reducing equivalent. Additionally, mechanistic insight was gained to further develop the proposed methodology. Chapter 4: An intramolecular approach to achieving coupling of acylsilanes and many different types of electrophiles was envisioned as a way of furnishing synthetically useful bicyclic compounds in one step. The focus of this chapter is the synthesis of a novel acylsilane that we proposed could undergo an intramolecular cross coupling reaction under transfer hydrogenation conditions. The conclusion of this chapter outlines the future direction of the project, which entails a new route to an intermolecular cross coupling of acylsilanes and various electrophiles. Published work from Michael Krische's laboratory helped us envision a different type of acylsilane, specifically an α,β-unsaturated acylsilane, in which binding to a metal center would proceed through a π-allyl intermediate. Ongoing efforts in the coupling of α,β-unsaturated acylsilanes with electrophiles are currently underway. / Thesis (MS) — Boston College, 2013. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Acylsilane

Brook rearrangement

Cross Coupling

Strategic Applications of Pinacolato Allylboron Reagents: New Reactions in Enantioselective Allyl-Allyl Cross-Coupling and Allylboration to Form New Carbon-Heteroatom Bonds

Kyne, Robert E.

January 2012

Thesis advisor: James P. Morken / Detailed within this dissertation are three new reactions involving allylboron reagents. Chapter 1 describes the development of Pd-catalyzed allyl-allyl cross-coupling for the preparation of enantioenriched all-carbon quaternary stereogenic centers. This methodology represents a novel approach to a significant challenge for synthetic chemists. Subsequently, an allyl-allyl cross-coupling is described which generates functionally differentiated 1,5-dienes. Such structures allow for several chemoselective manipulations, which add a significant practical note to this cross-coupling methodology. Chapter 2 details the development of the allylboration of nitrosobenzene with (Z)-crotylboronate derivatives, which results in the formation of branched allylic alcohols. This methodology provides a regioselective complement to standard boron oxidation conditions. / Thesis (PhD) — Boston College, 2012. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Allylation

Allylboron

Cross-Coupling

Nitrosobenzene

Synthesis and Utility of Organoboron Reagents for Enantioselective Synthesis

Schuster, Christopher Henry

January 2014

Thesis advisor: James P. Morken / Described herein are three distinct projects centered on the formation and use of carbon-boron bonds. In the first, the enantioselective platinum-catalyzed 1,4-diboration of trans-1,3-dienes is advanced in both selectivity and scope through the development of a novel class of electron rich chiral monodentate phosphines. Under the action of the new ligands, highly selective diboration is maintained at reduced loadings of catalyst. Secondly, enantioenriched 1,2-bis(pinacol boronates) are engaged in regioselective Suzuki-Miyaura cross-coupling with aryl and vinyl electrophiles. A tandem diboration cross-coupling sequence is successfully implemented to afford homobenzylic and homoallylic pinacol boronates directly from terminal olefins, which subsequently undergo oxidation, amination or homologation of the remaining carbon-boron bond to arrive at a range of enantioenriched products. Lastly, aryl electrophiles containing tethered allylboronate units undergo efficient intramolecular coupling in the presence of a chiral palladium catalyst to give enantioenriched carbocyclic products. / Thesis (PhD) — Boston College, 2014. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

cross-coupling

diboration

ligand-development

The structure of excitation-contraction coupling in atrial cardiomyocytes

Schulson, Meredith Nicole

05 1900

Standard local control theory, which describes Ca²⁺ release during excitation-contraction coupling (ECC), assumes that all Ryanodine Receptor (RyR) complexes are equivalent. Recent data from our laboratory has called this assumption into question. Specifically, we have shown that RyR complexes in ventricular myocytes differ depending on their location within the cell. This, and other data, has led us to hypothesize that similar differences occur within the rat atrial cell. To test this hypothesis, we have triple-labeled enzymatically-isolated, fixed myocytes to examine the distribution and colocalization of RyR, calsequestrin (CSQ), voltage-gated Ca²⁺ channels (Cav1.2), sodium-calcium exchangers (NCX), and caveolin-3 (cav-3). All images were acquired on a wide-field microscope, deconvolved, and subject to extensive analysis, including a novel method of measuring statistical significance of the recorded colocalization values. Overall, eight surface RyR populations were identified, depending on its binding partners. One of these groups, in which RyR, Cav1.2, and NCX colocalize, may provide the structural basis for ‘eager’ sites of Ca²⁺ release in atria, while other groups were defined based on their association with cav-3, and are therefore highly likely to be under the influence of other signaling molecules located within caveolae. Importantly, although a small portion of the surface RyR in atria do colocalize with NCX alone, the majority are tightly linked to Cav1.2 alone or Cav1.2 and NCX together. Therefore, it appears likely that Cav1.2-mediated calcium-induced calcium release (CICR) is the primary method of initiating Ca²⁺ release from the SR during EC coupling.

Excitation-contraction coupling

Ryanodine receptors

Stille Coupling Reactions Involving α-Alkoxybenzylstannanes

Nguyen, Thi Minh Ngoc

January 2007

The Stille reaction has established itself as one of the two most general and most selective palladium-catalyzed cross-coupling reactions, along with the Suzuki cross-coupling of organoboron compounds. The Stille coupling of α-alkoxystannanes is a relatively unexplored area. A previous study showed that an α-alkoxyalkylstannane could be coupled with benzoyl chloride with retention of configuration. However, our group has recently shown that Stille couplings of sulfonamidobenzylstannanes proceeds with inversion of configuration. In order to determine whether the Stille coupling reaction of α-alkoxybenzylstannanes proceeds with inversion or retention, the stereochemistry in the Stille reaction of α-alkoxybenzylstannanes was studied. Optimized conditions for Stille coupling of α-alkoxybenzyl-tributylstannanes with benzoyl chloride were developed: highest yields were observed using Pd2dba3 and PPh3 in toluene. Enantiomerically enriched α-hydroxystannanes were obtained via chromatographic resolution of diastereomeric carbamate derivatives. An X-ray crystal structure was obtained for the 3,5-dinitrobenzoate derivative of (S)-1-hydroxyphenylmethyl-trimethylstannane. Stille coupling (cat. Pd2dba3, PPh3, toluene) of the corresponding acetate with benzoyl chloride provided the acetate of (R)-benzoin thus establishing retention of configuration under these reaction conditions.

alkoxybenzylstannanes

Stille coupling reactions

Chemistry

Stille Coupling Reactions Involving α-Alkoxybenzylstannanes

Nguyen, Thi Minh Ngoc

January 2007

The Stille reaction has established itself as one of the two most general and most selective palladium-catalyzed cross-coupling reactions, along with the Suzuki cross-coupling of organoboron compounds. The Stille coupling of α-alkoxystannanes is a relatively unexplored area. A previous study showed that an α-alkoxyalkylstannane could be coupled with benzoyl chloride with retention of configuration. However, our group has recently shown that Stille couplings of sulfonamidobenzylstannanes proceeds with inversion of configuration. In order to determine whether the Stille coupling reaction of α-alkoxybenzylstannanes proceeds with inversion or retention, the stereochemistry in the Stille reaction of α-alkoxybenzylstannanes was studied. Optimized conditions for Stille coupling of α-alkoxybenzyl-tributylstannanes with benzoyl chloride were developed: highest yields were observed using Pd2dba3 and PPh3 in toluene. Enantiomerically enriched α-hydroxystannanes were obtained via chromatographic resolution of diastereomeric carbamate derivatives. An X-ray crystal structure was obtained for the 3,5-dinitrobenzoate derivative of (S)-1-hydroxyphenylmethyl-trimethylstannane. Stille coupling (cat. Pd2dba3, PPh3, toluene) of the corresponding acetate with benzoyl chloride provided the acetate of (R)-benzoin thus establishing retention of configuration under these reaction conditions.

alkoxybenzylstannanes

Stille coupling reactions

Chemistry

Development of HPLC-FID Coupling Using Water as the Eluent

Zhang, Rui

January 2010

The characterization of all components of pharmaceutical preparations, especially in the analysis of impurities present at levels higher than 0.05% of the main component, is a challenge in the pharmaceutical industry because no single detector can detect all impurities present. All commercial detection methods suffer from certain disadvantages. Universal sensitive detection with a wide dynamic range is strongly demanded. This results in an increasing interest in the development of universal sensitive detection methods for the pharmaceutical industry, which was the goal of this project. In this project, universal detection of analytes by HPLC-FID coupling was explored. Due to the large volume of the vapours of the mobile phase in HPLC, flame-based detection systems are prone to flame instability. To overcome this problem, a series of improvements were evaluated: 1) a fraction of the total volume of the effluent was delivered to the flame of the FID in a split mode; 2) a tubular oven was used before the FID to preheat the effluent and remove a large fraction of the mobile phase before the detector; 3) oxygen gas and a modified FID with an elongated burner were used to improve the performance of the FID. Finally, optimization of the FID design and parameters was performed by running a series of tests in flow injection mode using simplex optimization method.

HPLC-FID coupling

SHWC

Chemistry