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11	The oxidative dehydrogenation of ethane over alkaline earth halide-promoted rare earth oxide and perovskite-type halo-oxide catalysts Dai, Hongxing 01 January 2001 (has links) No description available. Catalysts Dehydrogenation Ethanes
12	Phase behavior of acetone-ethane and acetone-propane systems / Jones, Lloyd Garnes, January 1959 (has links) Thesis (M.S.)--Ohio State University, 1959. / Available online via OhioLINK's ETD Center Acetone. Propane. Ethanes.
13	Nuclear relaxation in chlorinated ethanes Miller, Charles Ralph 05 1900 (has links) No description available. Spin-lattice relaxation Ethanes
14	Further studies of 7, 7ʹ-dimethyl-8, 8ʹ-diquinolyl improvements in its synthesis and a study of its behavior towards oxidizing and resolving agents. Schulte, George Nichols, January 1935 (has links) Thesis--Catholic University of America, 1935. / At head of title: The Catholic University of America. Vita. "References to the literature cited": p. 26-28.
15	Further studies of 7, 7ʹ-dimethyl-8, 8ʹ-diquinolyl improvements in its synthesis and a study of its behavior towards oxidizing and resolving agents. Schulte, George Nichols, January 1935 (has links) Thesis--Catholic University of America, 1935. / At head of title: The Catholic University of America. Vita. "References to the literature cited": p. 26-28.
16	The infra-red absorption spectrum of mono-deuteroethane under high resolution Posey, Leroy Raadell, Barker, Ernest F. January 1900 (has links) L.R. Posey's Thesis--University of Michigan. / An article, by L.R. Posey, Jr. and E.F. Barker, reprinted from the Journal of chemical physics, v. 17, no. 2, Feb. 1949. Includes bibliographical references. Absorption spectra. Ethanes.
17	Rearrangements of 1, 1, 1, 2-tetrakis (p̲-nitrophenyl)ethane and 4,4-diphenylcyclohex-2-en-1-one Peterson, Richard George, January 1966 (has links) Thesis (Ph. D.)--University of Wisconsin, 1966. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references. Carbanions. Ethanes. Cyclohexanone.
18	The Lorentz-Lorenz function of ethane Burton, Michel Alan January 1973 (has links) This study measured the Lorentz-Lorenz function for ethane as determined by [formula omitted] for densities from 1 to 200 amagats, where ℒ is the Lorentz-Lorenz function, ρ is the density, and n is the index of refraction for a wavelength of 6328 Å. ℒ was found to be constant to within ½ % with an average value of .3794± .0003 cc/gm for values of ℒ corresponding to ∣ρ−ρc∣ ≤ .2. The index of refraction of ethane was measured by using a light-weight cell which had two sapphire windows set at an angle to each other and through which a plane wave of monochromatic light was passed. A micrometer-driven mirror was used to direct the light into a collimating telescope and the angle of deflection was then related to n. ρ was measured by weighing the cell and its contents on a precision balance. Ethane could be released from the cell to vary ρ. The coexistence curve was measured and three parameters used to fit the curve. This enabled extrapolation for the critical temperature which was found to be 32.079 ± .001 °C . Extrapolation of the rectilinear diameter gave a critical density of .2062 ± .0003 gm/cc. / Science, Faculty of / Physics and Astronomy, Department of / Graduate Lorentz transformations. Ethanes.
19	Studies in the pyrolysis and flash photolysis of azoethane Sandhu, Harbhajam Singh January 1966 (has links) The pyrolysis of azoethane has been studied in a static system in the temperature range 245 to 308°C., and at initial pressures between 15 and 110 mm. using gas chromatographic analysis. In the initial stages of the reaction, products identified are methane, ethane, ethylene, propane, propylene, n-butane, nitrogen and di- and tri- ethyl amines. At large extents of the reaction radical-olefin reactions occur extensively and produce a complex distribution of products. Compounds containing carbon, hydrogen and nitrogen are also formed at higher percentage decompositions. The orders of formation of major products with respect to azoethane, as well as activation energies, have been determined. The activation energy for the initiation reaction C₂H₅N₂C₂H₅ → 2 Ċ₂H₅ + N₂ has been found to be 47.2 ± 1.0 kcal per mole. The effects of additives such as cis-butene-2, butene-1 and carbon dioxide on the initial rates of formation of various products have been investigated. All the additives have a common effect of lowering the initial rate of formation of ethane. Increase in surface: volume ratio has the effect of lowering the time rate of pressure change by 10 to 20% and this has been attributed to the increased surface recombination of radicals. The rate of formation of ethane is also decreased in the packed reaction vessel. This study has pointed out that there is a short chain in the thermal decomposition of azoethane due to the formation and subsequent decomposition of CH₃ĊH-N=N-CH₂CH₃ radical. A mechanism has been proposed for the pyrolysis of azoethane which accounts qualitatively for the nature and distribution of products. The flash photolysis of azoethane has also been investigated at room temperature in pyrex and quartz reaction vessels. Thermally equilibrated radicals are produced in the pyrex cell with outer pyrex jacket. Addition of large amounts of carbon dioxide in the flash photolysis of azoethane decreases the product yields indicating the collisional deactivation of excited azoethane molecules. The ratio of ethyl radicals disproportionation to combination has been found to be 0.12 ± 0.02. Reactions have been postulated to account for the products of flash photolysis of azoethane. / Science, Faculty of / Chemistry, Department of / Graduate Ethanes Photochemistry Pyrolysis
20	Reactions of diborane with 1,2-ethanedithiol / Egan, Billy Zane January 1962 (has links) No description available. Chemistry Boranes Ethanes

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