16066-35-6Relevant articles and documents
SOLUBILITY OF TOLUENE IN AQUEOUS SODIUM ALKYLBENZENESULFONATE SOLUTIONS.
Ho,Ho,Kraus
, p. 115 - 118,116, 117 (1979)
The solubility of toluene in aqueous solutions of nine substituted sodium benzenesulfonates with short side chains was determined at 25 and 55 degree C using gas chromatography for the analysis of the saturated solutions. Tenax GC, which is used mostly for the separation of high boiling polar compounds, was found suitable for the analysis of aqueous solutions of toluene, a nonpolar, lower boiling compound. The solubility of toluene generally increases with sulfonate concentration except for the lowest members of the series (benzene- and toluenesulfonate) where a slight decrease in solubility (salting out) occurs at low concentrations. Toluene solubility in the aqueous phase generally increases with the number of alkyl carbons on the benzene ring. This work is relevant to oil recovery.
Architectural diversity and elastic networks in hydrogen-bonded host frameworks: From molecular jaws to cylinders
Horner, Matthew J.,Holman, K. Travis,Ward, Michael D.
, p. 14640 - 14660 (2007)
Guest-free guanidinium organomonosulfonates (GMS) and their inclusion compounds display a variety of lamellar crystalline architectures distinguished by different "up-down" projections of the organomonosulfonate residues on either side of a two-dimensional (2D) hydrogen-bonding network of complementary guanidinium ions (G) and sulfonate moieties (S), the so-called GS sheet. Using a combinatorial library of 24 GMS hosts and 26 guest molecules, a total of 304 inclusion compounds out of a possible 624 possible host-guest combinations were realized, revealing a remarkable capacity of the GMS hosts to form inclusion compounds despite the facile formation of the corresponding guest-free compounds and the absence of "predestined" inclusion cavities like those in related guanidinium organodisulfonate host frameworks. The GS sheets in the inclusion compounds behave as "molecular jaws" in which organomonosulfonate groups projecting from opposing sheets clamp down on the guest molecules, forming ordered interdigitated arrays of the host organic groups and guests. Both the guest-free and inclusion compounds display a variety of architectures that reveal the structural integrity of two-dimensional GS sheet and the unique ability of these hosts to conform to the steric demands of the organic guests. Certain GMS host-guest combinations prompt formation of tubular inclusion compounds in which the GS sheet curls into cylinders with retention of the 2D GS network. The cylinders assemble into hexagonal arrays through interdigitation of the organosulfonate residues that project from their outer surfaces, crystallizing in high-symmetry trigonal or hexagonal space groups. This unique example of network curvature and structural isomerism between lamellar and cylindrical structures, with retention of supramolecular connectivity, is reminiscent of the phase behavior observed in surfactant microstructures and block copolymers. The large number of host-guest combinations explored here permits grouping of the inclusion compound architectures according to the shape of the guests and the relative volumes of the organomonosulfonate groups, enabling more reliable structure prediction for this class of compounds than for molecular crystals in general.
METHOD FOR PRODUCING AROMATIC ALKOXY KETONES
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Page/Page column 6, (2008/06/13)
The invention relates to a method for producing aromatic alkoxy ketones. According to said method, an alkoxyalkyl aromate of general formula RO(Ar)CHCH3R', wherein R represents methyl, ethyl, propyl, butyl or tert.-butyl, Ar represents phenyl or naphthyl, and R' represents hydrogen or methyl, is reacted in the presence of oxygen, a transition metal salt and an organic alkyl ammonium compound, in a liquid phase at a temperature of between 40 and 150 °C.
Structure-activity relationships in platelet-activating factor (PAF). 11-From PAF-antagonism to phospholipase A2 inhibition: Syntheses and structure-activity relationships in 1-arylsulfamido-2-alkylpiperazines
Binisti, Carine,Assogba, Leon,Touboul, Estera,Mounier, Carine,Huet, Jack,Ombetta, Jean-Edouard,Dong, Chang Zhi,Redeuilh, Catherine,Heymans, Francoise,Godfroid, Jean-Jacques
, p. 809 - 828 (2007/10/03)
1-Benzoyl-2-alkyl piperazines are strong inhibitors of Group I and II secreted PLA2s. An improvement of their activity was obtained by replacing the amide function by a sulfamide and by introduction of electrodonor substituents on the para position of the benzenesulfonyl moiety. Neither the position on one of the carbon of the piperazine ring nor the absolute configuration of this carbon have an effect on the affinity for one or the other group of PLA2, but the lipophilicity remains for these series an essential parameter. In addition structure-activity relationships allow new hypothesis on interaction of these piperazine derivatives with the catalytic site of PLA2s.
