Global ETD Search

171	"One-pot" Synthesis of Carbamates <i>via</i> Curtius Rearrangement Kyei-Baffour, Kwaku 30 August 2014 (has links) No description available. Chemistry Organic Chemistry Organic chemistry Organic synthesis Acyl azides Carbamates Curtius rearrangement
172	TRANSITION METAL CATALYZED REARRANGEMENT OF DIMETHYL VINYLCYCLOBUTENE DICARBOXYLATES DERIVATIVES TO DIMETHYL CYCLOHEXADIENE DICARBOXYLATES AND PHTHALATES Lovchik, Martin Alan 11 October 2001 (has links) No description available. VINYLCYCLOBUTENE METAL PROMOTED REARRANGEMENT Z+Z PHOTO-ADDITION DECHLORINATION ACTIVATED ZINC
173	Low temperature sintering of nanosized ceramic powder: YSZ-bismuth oxide system Kim, Hyungchan 19 October 2004 (has links) No description available. Engineering, Materials Science YSZ bismuth oxide sintering rearrangement liquid phase sintering nanoceramics nanopowder agglomeration precipitation
174	Synthesis and study of heteroatomic spirocyclic scaffolds Hilmey, David George 13 March 2006 (has links) No description available. Chemistry, Organic Spirocycles Supramolecular chemistry Ionophores Beckmann rearrangement Pinnaic acid Pinacolic ring expansion Gauche effect
175	Neighboring group participation of sulfonamido nitrogens observed towards the synthesis of selected bicyclic sulfamides having sulfur at the apex position. Efforts towards the total synthesis of massarilactone A Proust, Nicolas 10 September 2008 (has links) No description available. Chemistry lactam sultam sulfonamide sulfamide bromination rearrangement neighboring group participation massarilactone A
176	NITROGEN-LIGATED (POLY)CATIONIC IODINE(III) REAGENTS: PLATFORMS FOR REAGENT DEVELOPMENT AND DIVERSE HETEROCYCLIC SYNTHESES Walters, Jennifer Caroll January 2019 (has links) Hypervalent iodine (HVI) reagents are easily accessed, highly tunable, mild, selective oxidants that are less toxic and more environmentally benign compared to their heavy metal counterparts. λ3-Iodanes, which possess an iodine center bound to one aryl substituent and two heteroatom ligands, have been the subject of recent interest due to their electrophilicity and hypernucleofugality. A central focus of the Wengryniuk laboratory has been the further development and application of a class of electrostatically activated (bis)cationic nitrogen-ligated HVI (N-HVI) reagents. N-HVIs feature datively bound heterocyclic ligands which results in dramatically enhanced electrophilicity and redox potentials. Despite being a highly tunable platform for reagent development, N-HVIs remain a relatively underexplored class of λ3-iodanes. This dissertation focuses on demonstrating N-HVI’s synthetic potential and developing novel variants to enhance their synthetic utility. Chapter 1 of this dissertation serves as a general background and introduction to nitrogen-ligated HVI reagents. Chapter 2 outlines our efforts in N-HVI library expansion, novel syntheses, and characterization. With a library of 33 novel N-HVIs in hand, ligand effects on N-HVI reactivity were analyzed via qualitative and quantitative methods. Chapter 3 describes our first synthetic application of N-HVIs in the development of novel oxidative rearrangements of simple and complex cyclic alcohols. This chapter describes the chemoselective ring expansion of 2° and 3° cyclic alcohols accessing medium-sized cyclic acetal products in good to excellent yields with applicability to Complexity-to-Diversity (CTD) efforts. Chapter 4 demonstrates our initial efforts toward the development of another synthetic method where the functionalized N-heterocyclic ligands of the N-HVIs can be regioselectivity incorporated into a molecule following N-HVI activation of an olefin. The pyridinium lactone salts formed from olefinic acids were isolated in excellent yields via simple trituration, supplying a synthetically useful functional handle that was easily derivatized via known methods. These four chapters summarize the current state of the research with nitrogen-ligated HVI salts, expand upon our initial publications to highlight the development of novel heterocyclic syntheses, and provide a useful guide to further explore the reactivity of these tunable reagents. / Chemistry Chemistry, Organic Hypervalent Iodine Iodine(iii) Iodonium Salts Nitrogen-ligated Oxidative Rearrangement Pyridinium Lactonization
177	PHOTOCHEMICAL AND TITANIUM (II) MEDIATED METHODS FOR THE SYNTHESIS OF COMPLEX MOLECULAR SCAFFOLDS Derstine, Brenden Paul January 2018 (has links) Development of therapeutics is an extensive process, consuming significant amounts of time and requiring herculean synthetic efforts. A new therapeutic is most often designed from a previously commercialized scaffold, to increase the chance of success. Designing new molecular scaffolds can be extremely high risk and time consuming, yet at the same time the reward can be substantial. Accessing new molecular scaffolds, with efficient and “green” methods, is important in modern medicinal chemistry to diversify chemical space for therapeutic targets. There may be significant quantities of therapeutic candidates that have been over-looked due to synthetic challenges. There is a need for methodologies to synthesize challenging molecular scaffolds that are underexplored in commercialized therapeutics. The work described herein employs two distinct methodologies to access complex molecular scaffolds: 1) by developing a titanium (II) mediated Kulinkovich de-Meijere reaction arrested by Bredt’s rule and a suitable aryl sulfonyl moiety to afford diverse molecular scaffolds with potential for medicinal chemistry applications and 2) utilizing a [4 + 4] photocycloaddition of 2-pyridone-enolynes to access functionally rich cyclooctanoids that are capable of further photochemical transformations into even more complex molecular scaffolds. The titanium (II) mediated Kulinkovich reaction traditionally yields cyclopropylamines and cyclopropanols from amides and esters, respectively. The reaction involves two consecutive carbon-carbon bond forming steps. The bridged tricyclic intermediates would violate Bredt’s Rule and prevent the final carbon-carbon bond formation. This transformation can access a wealth of cyclic amino-ketones from olefin-tethered lactams. In addition, appropriate selection of an electron withdrawing group on nitrogen achieves the same bond sequestration. Interception of the titanafuran intermediate allows for electrophilic trapping of the titanium-carbon bond. The electronically arrested second carbon-carbon bond forming step adds generality to the interrupted Kulinkovich de-Meijere reaction to access the challenging molecular scaffolds of trans-α,α’-disubstituted cyclic ketones. Intramolecular [4 + 4] photoreaction of 2-pyridones with silyl 3-enol-1-ynes yields a highly reactive 1,2,5-cyclooctatriene. In the presence of a silanol proton source the allene is converted into a 1,3-diene. Without the combination of silyl 3-enol-1-ynes and silanol, as previously reported with 1,3-enynes, complex mixture of products is observed. Use of more nucleophilic solvents results in near quantitative yield of the cyclooctadienone through loss of silicon. Further photochemical manipulations of the cyclooctanoids allows for rapid scaffold diversification into bullvalene-like structures through a di-π-methane rearrangement. / Chemistry Chemistry, Organic [4 + 4] Cycloaddition Di-π-methane Rearrangement Kulinkovich Kulinkovich De-meijere Photochemistry Titanium (ii)
178	Proteïnes com a microreactors en fotoquímica supramolecular Marín Melchor, Mireia 20 February 2013 (has links) La fotoquímica supramolecular es una herramienta muy utilizada para controlar la selectividad, la reactividad y el avance de las reacciones químicas. Con ella se aprovecha la estructura tridimensional del anfitrión para canalizar la conformación de los estados excitados de los sustratos que intervienen en la reacción. En la literatura se encuentran numerosos casos de fotorreacciones catalizadas por supramoléculas abióticas, pero los ejemplos con biomoléculas son escasos. En este contexto, el objetivo de la presente tesis ha sido estudiar reacciones fotoquímicas clásicas en el seno de biomoléculas ya que éstas pueden presentar ventajas respecto a las supramoléculas abióticas. Se han escogido las albúminas séricas como anfitriones bióticos, en base a dos propiedades claves: (i) son proteínas transportadoras que actúan como vehículo de una amplia variedad de sustancias; (ii) poseen dos sitios de unión diferenciados: el sitio I y el sitio II. La reorganización de foto-Fries fue la primera reacción abordada. Para ello se diseñaron varios sustratos que interaccionaban en los sitios de unión I y II de distintas albúminas. Distintos estudios cinéticos demostraron que los rendimientos de formación de los fotoproductos dependían del sitio de interacción y de la clase de albúmina utilizada. Se seleccionaron también derivados de avobenzona (AB) sustituídos en la posición ? de los carbonilos. Se demostró que éstos sólo existen bajo su forma ?-dicetónica, la cual puede desencadenar procesos de fototoxicidad. Se estudió mediante fotólisis de destello láser el efecto de la interacción de los tres derivados con HSA y los resultados mostraron el efecto protector de ésta frente al ataque por oxígeno y la auto-desactivación y reflejaron el entorno confinado proporcionado por la albúmina. Además, se investigó la fragmentación de Norrish tipo II de uno de los derivados, que resultó ser más lenta en presencia de albúmina. Por último, se consideró la fotoelectrociclación [6?] de la N- / Marín Melchor, M. (2013). Proteïnes com a microreactors en fotoquímica supramolecular [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/27204 Supramolecular photochemistry Proteins Albumins Photo-fries rearrangement Norrish ii Avobenzone derivatives [6pi] photoelectrocyclization QUIMICA ORGANICA
179	Development of Strategies in Finding the Optimal Cooling of Systems of Integrated Circuits Minter, Dion Len 11 June 2004 (has links) The task of thermal management in electrical systems has never been simple and has only become more difficult in recent years as the power electronics industry pushes towards devices with higher power densities. At the Center for Power Electronic Systems (CPES), a new approach to power electronic design is being implemented with the Integrated Power Electronic Module (IPEM). It is believed that an IPEM-based design approach will significantly enhance the competitiveness of the U.S. electronics industry, revolutionize the power electronics industry, and overcome many of the technology limits in today's industry by driving down the cost of manufacturing and design turnaround time. But with increased component integration comes the increased risk of component failure due to overheating. This thesis addresses the issues associated with the thermal management of integrated power electronic devices. Two studies are presented in this thesis. The focus of these studies is on the thermal design of a DC-DC front-end power converter developed at CPES with an IPEM-based approach. The first study investigates how the system would respond when the fan location and heat sink fin arrangement are varied in order to optimize the effects of conduction and forced-convection heat transfer to cool the system. The set-up of an experimental test is presented, and the results are compared to the thermal model. The second study presents an improved methodology for the thermal modeling of large-scale electrical systems and their many subsystems. A zoom-in/zoom-out approach is used to overcome the computational limitations associated with modeling large systems. The analysis performed in this paper was completed using I-DEAS©,, a three-dimensional finite element analysis (FEA) program which allows the thermal designer to simulate the affects of conduction and convection heat transfer in a forced-air cooling environment. / Master of Science Zoom-in Multi-Scale Modeling Component Rearrangement Data Centers Electronics Cooling Thermal Management Power Electronics
180	Proximity Effects in the Electron Impact Mass Spectra of 2-Substituted Benzazoles Chantler, Thomas, Perrin, Victoria L., Donkor, Rachel E., Cawthorne, Richard S., Bowen, Richard D. January 2004 (has links) No / The 70 eV electron impact mass spectra of a wide range of 2-substituted benzazoles are reported and discussed. Particular attention is paid to the mechanistic significance and analytical utility of [M–H]+ and [M–X]+ signals in the spectra of benzazoles in which the 2-substituent contains a terminal aryl group with one or more substituents, X. Loss of H or X occurs preferentially from an ortho-position from ionized 2-benzylbenzimidazoles, 2-phenethylbenzimidazoles, 2-styrylbenzimidazoles, 2-styrylbenzoxazoles and 2-styrylbenzothiazoles. In the three styrylbenzazole series, the [M–H]+ and/or [M–X]+ signals dominate the spectra. This unusually facile loss of H or X may be attributed to a proximity effect, in which cyclization of the ionized molecule is followed by elimination of an ortho-substituent to give an exceptionally stable polycyclic ion. Formation of a new five- or six-membered ring by the proximity effect occurs rapidly; cyclization to a seven-membered ring takes place rather less readily; but formation of a ring with only four atoms or more than seven atoms is not observed to a significant extent. The proximity effect competes effectively with loss of a methyl radical by simple cleavage of an ethyl, isopropyl and even a t-butyl group in the pendant aromatic ring of ionized 2-(4-alkylstyryl) benzazoles. Benzimidazoles Benzoxazoles Benzothiazoles Proximity effect Rearrangement Hydrogen atom elimination Doubly-charged

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