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41	Electronic spectroscopy of biological relevant species and their complexes with solvent molecules He, Yonggang 27 January 2005 (has links) In this dissertation, I present electronic spectroscopy of a few biologically relevant species and their complexes with solvent molecules in the gas phase using a variety of techniques, including resonantly enhanced multiphoton ionization (REMPI), laser induced fluorescence (LIF), and zero kinetic energy (ZEKE) photoelectron spectroscopy. My work on several methylated uracils and thymines and thymine-water complexes alludes to a new interpretation with regard to the origin of the photostability of our genetic code. I believe that it is the water solvent that stabilizes the photophysical and photochemical behavior of these bases under UV irradiation. For systems that demonstrate vibrational resolution in the first electronically excited state (S₁) and the cationic state, I performed vibrational analysis of both states with the aid of ab initio and density functional calculations. These observations are explained in terms of the structural changes from the ground state to S₁ and further to the cation. To bridge results from the gas phase to the solution phase, I also report studies of supersonically cooled water complexes of the three isomers of aminobenzoic acid. Density functional theory calculations are carried out to identify structural minima of water complexes in the ground state. The solvation mechanism is investigated based on vibrational analysis of the S₁ state of the neutral complex and the shift of ionization thresholds with increasing water content. / Graduation date: 2005 Biomolecules -- Optical properties Biomolecules -- Spectra Biomolecules -- Structure Solvation Photochemistry Ultraviolet spectroscopy ZEKE spectroscopy Ultraviolet radiation
42	Development and characterization of novel organic coatings based on biopolymer chitosan Kumar, Girdhari. January 2006 (has links) Thesis (Ph. D.)--Ohio State University, 2006. / Full text release at OhioLINK's ETD Center delayed at author's request
43	The UV photoelectron spectroscopy of transients : An experimental and computational investigation of electronic structure and reaction mechanisms / Bajorek, Tom. Werstiuk, Nick H. January 2003 (has links) Thesis (Ph.D.)--McMaster University, 2003. / Advisor: N. Werstiuk. Includes bibliographical references (leaves 148-156). Also available via World Wide Web.
44	Laser spectroscopy of the Fourth Positive System of carbon monoxide isotopomers / Du Plessis, Anton. January 2006 (has links) Dissertation (PhD)--University of Stellenbosch, 2006. / Bibliography. Also available via the Internet.
45	Multivariate analyses of near-infrared and UV spectral data Dogra, Jody A. Busch, Kenneth W. Busch, Marianna A. January 2009 (has links) Thesis (Ph.D.)--Baylor University, 2009. / Includes bibliographical references (p. 184-195).
46	Síntese e medidas de absorção na ultravioleta de alguns alquiltio-tioacetatos de etila / Synthesis and measurements of absorption in the ultraviolet some alkylthio-thioacetates-ethyl Francisco Alvaro da Conceicao Andrade 17 December 1971 (has links) A presente dissertação tem por objetivo o estudo de interações eletrônicas entre o grupo carbonila e o átomo de enxofre em α em alguns alquiltio-tioacetatos de etila (I a,b,c,d,e) ainda não descritos na literatura.RSCH2COSEt I R=C3H7 (a); C4H9 (b); (CH3)2CHCH2 (c); (CH3)2CH (d); (CH3)3C (e) É apresentado um apanhado bibliográfico sôbre a transferência de carga que ocorre intramolecularmente, no espaço, nos compostos carbonílicos contendo na molécula uma dupla etilênica, um átomo de nitrogênio, enxôfre ou selênio. Êle demonstra que a posição relativa dos grupos tem grande importância na interação eletrônica existente. São descritas as sínteses e as caracterizações dos cinco alquiltio-tioacetatos de etila (I a,b,c,d,e). São apresentadas as medidas no infravermelho e ultravioleta dêstes mesmos compostos. Os espectros no infravermelho demonstram um deslocamento da banda de carbonila para frequências menores de aproximadamente 16 cm-1, em relação à dos tioésteres não substituídos. Os espectros no ultravioleta, medidos em n-hexano, não são superposições dos espectros de tioésteres e tioéteres, desde que contêm uma banda larga, em aproximadamente 290 mµ (log ε ~ 2,6) que é ausente nestas duas classes de compostos. São, também, descritas as tentativas de obter uma inforomação sôbre a natureza da banda de absorção no ultravioleta pelas medidas em solventes polares. Porém, tanto o emprêgo de solventes próticos como apróticos não permitiu perceber qualquer deslocamento da ,banda de absorção, fato este que se deve, principalmente, a dificuldade de se determinar os máximos de absorção. Os resultados espectroscópicos obtidos no presente trabalho estão de acôrdo com os obtidos, anteriormente, pelo grupo orientado pela Profª. Wladislaw, para compostos semelhantes ( I; R = C2H5 ou CH2C6H5). O fato de não se observar qualquer deslocamento da banda de absorção no ultravioleta em t-butiltio-tioacetato de etila (Ie) em relação aos outros alquiltio-derivados permite concluir que o aumento da densidade eletrônica no enxôfre pelo efeito indutivo dos grupos metila não tem influência sobre a interação eletrônica ocorrente nêstes compostos. São apresentadas três possíveis conformações dos compostos estudados e sugeridas as prováveis transições eletrônicas que posSam ocorrer em cada uma delas. A possibilidade de decisão entre estas transições pelo estudo de compostos com as conformações fixas é aventada. / Abstract not available. Alquiltio-tioacetatos de etila Espectroscopia ultravioleta Medidas no ultravioleta Síntese orgânica Organic synthesis Ultraviolet spectroscopy
47	The LUVOIR Ultraviolet Multi-Object Spectrograph (LUMOS): instrument definition and design Harris, Walter M., France, Kevin C., Fleming, Brian T., West, Garrett J., McCandliss, Stephan R., O'Meara, John, Tumlinson, Jason, Schiminovich, David, Bolcar, Matthew R., Moustakas, Leonidas A., Rigby, Jane, Pascucci, Ilaria 29 August 2017 (has links) The Large Ultraviolet/Optical/Infrared Surveyor (LUVOIR) is one of four large mission concepts currently undergoing community study for consideration by the 2020 Astronomy and Astrophysics Decadal Survey. LUVOIR is being designed to pursue an ambitious program of exoplanetary discovery and characterization, cosmic origins astrophysics, and planetary science. The LUVOIR study team is investigating two large telescope apertures (9- and 15-meter primary mirror diameters) and a host of science instruments to carry out the primary mission goals. Many of the exoplanet, cosmic origins, and planetary science goals of LUVOIR require high-throughput, imaging spectroscopy at ultraviolet (100 - 400 nm) wavelengths. The LUVOIR Ultraviolet Multi-Object Spectrograph, LUMOS, is being designed to support all of the UV science requirements of LUVOIR, from exoplanet host star characterization to tomography of circumgalactic halos to water plumes on outer solar system satellites. LUMOS offers point source and multi-object spectroscopy across the UV bandpass, with multiple resolution modes to support different science goals. The instrument will provide low (R = 8,000 - 18,000) and medium (R = 30,000 - 65,000) resolution modes across the far-ultraviolet (FUV: 100 - 200 nm) and near-ultraviolet (NUV: 200 - 400 nm) windows, and a very low resolution mode (R = 500) for spectroscopic investigations of extremely faint objects in the FUV. Imaging spectroscopy will be accomplished over a 3 x 1.6 arcminute field-of-view by employing holographically-ruled diffraction gratings to control optical aberrations, microshutter arrays (MSA) built on the heritage of the Near Infrared Spectrograph (NIRSpec) on the James Webb Space Telescope (JWST), advanced optical coatings for high-throughput in the FUV, and next generation large-format photon-counting detectors. The spectroscopic capabilities of LUMOS are augmented by an FUV imaging channel (100 - 200nm, 13 milliarcsecond angular resolution, 2 x 2 arcminute field-of-view) that will employ a complement of narrow-and medium-band filters. The instrument definition, design, and development are being carried out by an instrument study team led by the University of Colorado, Goddard Space Flight Center, and the LUVOIR Science and Technology Definition Team. LUMOS has recently completed a preliminary design in Goddard's Instrument Design Laboratory and is being incorporated into the working LUVOIR mission concept. In this proceeding, we describe the instrument requirements for LUMOS, the instrument design, and technology development recommendations to support the hardware required for LUMOS. We present an overview of LUMOS' observing modes and estimated performance curves for effective area, spectral resolution, and imaging performance. Example "LUMOS 100-hour Highlights" observing programs are presented to demonstrate the potential power of LUVOIR's ultraviolet spectroscopic capabilities. large mission study: LUVOIR ultraviolet spectroscopy spectrograph design science drivers photon-counting detectors optical coatings
48	The Detection and Identification of Explosives by Canines and Chemical Instrumentation Reavis, Madison Dylan 05 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / With bombings in the United States on the rise for the first time since 2016, the detection and identification of explosives remains of pertinent interest to law enforcement agencies. This work presents two soon-to-be published research articles that focus on the detection and identification of explosives by both chemical instrumentation and canines. The first article, Quantitative Analysis of Smokeless Powder Particles in Post-Blast Debris via Gas Chromatography/Vacuum Ultraviolet Spectroscopy (GC/VUV), utilizes gas chromatography/vacuum ultraviolet spectroscopy (GC/VUV) to determine the difference in chemical composition of two smokeless powders in both pre- and post-blast conditions. The compounds of interest in this study were nitroglycerin, 2,4- dinitrotoluene, diphenylamine, ethyl centralite, and di-n-butyl phthalate. Concentration changes between pre- and post-blast smokeless powder particles were determined as well as microscopic differences between pre- and post-blast debris for both smokeless powders in all devices. To our knowledge, this is the first use of GC/VUV for the quantification of explosives. The second article, An Odor-Permeable Membrane Device for the Storage of Canine Training Aids, proposes the use of an odor-permeable membrane device (OPMD) as a standardized storage method for canine training aids. It is hypothesized that the OPMD would minimize cross-contamination between training aids, and that the OPMD could be used for canine training as well as storage. The goal of this research is to use flux and evaporation rate to quantify the explosive odor that escapes from the OPMD compared to unconfined explosives. Preliminary data suggests that there is an exponential relationship between relative boiling point and evaporation rate. It has been determined that compounds with higher boiling points have lower evaporation rates than compounds that have lower boiling points. The materials studied thus far are known odor compounds produced by explosive formulations. These include nitromethane, nitroethane, 1- nitropropane, r-limonene, and toluene. Forensic Explosive Analysis GC/VUV Vacuum Ultraviolet Spectroscopy Canine Training Canine Training Aids
49	SPECTROSCOPIC AND THERMAL ANALYSIS OF EXPLOSIVE AND RELATED COMPOUNDS VIA GAS CHROMATOGRAPHY/VACUUM ULTRAVIOLET SPECTROSCOPY (GC/VUV) Courtney Cruse (11731682) 07 January 2022 (has links) <p>Analysis of explosives (intact and post-blast) is of interest to the forensic science community to qualitatively identify the explosive(s) in an improvised explosive device (IED). This requires high sensitivity, selectivity, and specificity. Forensic science laboratories typically utilize visual/microscopic exams, spectroscopic analysis (e.g., Fourier Transform Infrared Spectroscopy (FTIR)) and gas chromatography/mass spectrometry (GC/MS) for explosive analysis/identification. However, GC/MS has limitations for explosive analysis due to difficulty differentiating between structural isomers (e.g., 2,4-dinitrotoluene, 2,5-dinitrotoluene and 2,6-dinitrotoluene) and thermally labile compounds (e.g., ethylene glycol dinitrate (EGDN), nitroglycerine (NG) and pentaerythritol tetranitrate (PETN)) due to mass spectra with very similar fragmentation patterns. </p><p>The development of a benchtop vacuum ultraviolet spectrometer coupled to a gas chromatography (GC/VUV) was developed in 2014 with a wavelength region of 120 nm to 430 nm. GC/VUV can overcome limitations in differentiating explosive compounds that produces similar mass spectra. This work encompasses analysis of explosive compounds via GC/VUV to establish the sensitivity, selectivity, and specificity for the potential application for forensic explosive analysis. Nitrate ester and nitramine explosive compounds thermally decompose in the VUV flow cell resulting in higher specificity due to fine structure in the VUV spectra. These fine structures originate as vibronic and Rydberg transitions in the small decomposition compounds (nitric oxide, carbon monoxide, formaldehyde, water, and oxygen) and were analyzed computationally. The thermal decomposition process was further investigated for the determination of decomposition temperatures for the nitrate ester and nitramine compounds which range between 244 ºC and 277 ºC. Nitrated compounds were extensively investigated to understand the absorption characteristics of the nitro functional group in the VUV region. The nitro absorption maximum appeared over a wide range (170 - 270 nm) with the wavelength and intensity being highly dependent upon the structure of the rest of the molecule. Finally, the GC/VUV system was optimized for post-blast debris analysis. Parameters optimized include the final temperature of a ramped multimode inlet program (200 ºC), GC carrier gas flow rate (1.9 mL/min), and VUV make-up gas pressure (0.00 psi). The transfer line/flow cell temperature was determined not to be statistically significant.</p><br> Forensic Chemistry Explosive Analysis Vacuum Ultraviolet Spectroscopy GC/VUV
50	Design, synthesis and characterization of novel raft agents Bivigou Koumba, Achille Mayelle 12 1900 (has links) Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2005. / This thesis begins with the description of the preparation of thirteen dithioesters (of the form Z- (C=S)-S-R) which were characterized via Fourier-transform infrared spectroscopy (FT-IR), nuclear magnetic resonance spectroscopy (NMR) and ultraviolet spectroscopy (UV). The dithioesters were then used as reversible addition-fragmentation chain transfer (RAFT) mediating agents in the bulk polymerization of styrene, in order to observe differences in the kinetic behaviour of the polymerizations and, as a result, the efficiencies of the dithioesters in mediating the polymerizations. Fourier transform infrared spectroscopy Nuclear magnetic resonance spectroscopy Ultraviolet spectroscopy Polymerization Dissertations -- Polymer science Theses -- Polymer science Chemistry and Polymer Science

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