Glyme

Water Less than 0.08% by Karl Fischer titration Ultraviolet absorbance  

Peroxides Less than two mg/l es H2O2 at time of packaging 

Purity Greater than 96% n-heptane and 99.9% n-heptane and saturated Cj hydrocarbons by gc analysis 

Electron capture gc No residue peak greater than 4 ug/1 of heptachlor epoxide. 

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Me0v j 5 C02Bn PdCl2(PhCN)2 NHC02Bn glyme, 17%... 

Glymes The Grant Family of Glycol Diethers, brochure. Grant Chemical Div., Ferro Corp., La., 1992. 

Much analytical study has been required to estabHsh the materials for use as solvents and solutes in lithium batteries. References 26 and 27 may be consulted for discussions of electrolytes. Among the best organic solvents are cycHc esters, such as propylene carbonate [108-32-7] (PC), C H O, ethylene carbonate [96-49-1] (EC), C H O, and butyrolactone [96-48-0] and ethers, such as dimethoxyethane [110-71-4] (DME), C H q02, the glymes,... 

It is not clear exactly when the association illustrated above actually takes place. It is certainly involved by the final ring closure stage, but it seems reasonable to assume that there is some cation-glyme type interaction taking place from the instant of solution. The fact that wrapping occurs in such a way that the two ends of the molecule are held in proximity, allows the reaction to be conducted at much higher concentrations than might otherwise be practical. Tlie evidence for the operation of such a template effect is presented and considered below. 

It was noted early by Smid and his coworkers that open-chained polyethylene glycol type compounds bind alkali metals much as the crowns do, but with considerably lower binding constants. This suggested that such materials could be substituted for crown ethers in phase transfer catalytic reactions where a larger amount of the more economical material could effect the transformation just as effectively as more expensive cyclic ethers. Knbchel and coworkers demonstrated the application of open-chained crown ether equivalents in 1975 . Recently, a number of applications have been published in which simple polyethylene glycols are substituted for crowns . These include nucleophilic substitution reactions, as well as solubilization of arenediazonium cations . Glymes have also been bound into polymer backbones for use as catalysts " " . 

The iodide ion induced decomposition of trimethyl (trifluoromethyl) tin and of phenyl (trifluoromethyl) mercury represent additional interesting possibilities. The reaction of the tin reagent and iodide ion with (31, X = H) in refluxing glyme for 168 hr gives (32) and the corresponding 6jff,7j0-difluoromethylene adducts in 46% and 7% yields, respectively. ... 

The methylenation of A -3 -hydroxy-5a-H steroids (5) proceeds analogously to give 1 ) ,2i3-methylene steroids in solvent mixtures of glyme and diethyl ether at reflux. The yields for various examples incorporating additional functionality, i.e., 17j -acetoxy, 17-keto, 20j9-hydroxy, 1-methyl-17j5-acetoxy-19-nor and 17j5-acetoxy-17a-ethynyl-19-nor are about 25 to 60... 

To a stirred solution consisting of 5 g (9.45 mmoles) 3, 17) -dibenzoyloxy-5a-androst-7-en-6a-ol in a mixture of 150 ml of dry ether and 150 ml of glyme is added lOg (0.16 moles) of zinc-copper couple and 26.7 (8 ml, 0.1 moles) methylene iodide. The mixture is heated under reflux for 4 hr, cooled to room temperature, diluted with 200 ml of ether and filtered. The filtrate is washed with a saturated solution of sodium chloride and water, and dried over anhydrous sodium sulfate. The ether is removed under reduced pressure and the residue is crystallized from acetone-hexane to yield 4.4 g (86%) of 3, 17 -dibenzoyloxy-7a,8a-methylen-5a,8a-androstan-6a-ol mp 166-167° [ ]d -62° (CHCI3). 

A variety of media have been used for the Wallach fluorination reaction anhydrous hydrogen fluoride alone or with cosolvents such as methylene chloride, benzene, or tetrahydrofuran and hydrogen fluoride-pyridine alone or with co solvents such as benzene, glyme, or acetic acid [42,43, 46 50] Solutions of cesium fluoride, tetraethylammonium fluoride, or tetrabutylammonium fluoride in strong acids such as methanesulfonic acid or trifiuoroacetic acid with numerous cosolvents have also been studied [48, 49]... 

Perfluoroallyl fluorosulfonate is converted to perfluoroallyl bromide or iodide in 56 or 75% yield, respectively, by reaction with the potassium halide in mono-glyme at room temperature [S5]... 

Dialkylcadmium reagents are often useful alternatives to the more reactive Gngnard reagents in the preparation of ketones from acyl halides However, bis(trifluotomethyl)cadmium glyme is decomposed by acyl halides and does not give trifluoromethyl ketones [, 124] Nevertheless, this reaction can be used as a low-temperature source of difluorocarbene [S, 124] (equation 102)... 

Codeposition of silver vapor with perfluoroalkyl iodides at -196 °C provides an alternative route to nonsolvated primary perfluoroalkylsilvers [272] Phosphine complexes of trifluaromethylsilver are formed from the reaction of trimethyl-phosphme, silver acetate, and bis(trifluoromethyl)cadmium glyme [755] The per-fluoroalkylsilver compounds react with halogens [270], carbon dioxide [274], allyl halides [270, 274], mineral acids and water [275], and nitrosyl chloride [276] to give the expected products Oxidation with dioxygen gives ketones [270] or acyl halides [270] Sulfur reacts via insertion of sulfur into the carbon-silver bond [270] (equation 188)... 

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