Iodomethane

METHOD 2 [89]--1M MDA or benzedrine and 1M benzaldehyde is dissolved in 95% ethanol (Everclear), stirred, the solvent removed by distillation then the oil vacuum distilled to give 95% yellow oil which is a Schiff base intermediate. 1M of this intermediate, plus 1M iodomethane, is sealed in a pipe bomb that s dumped in boiling water for 5 hours giving an orangy-red heavy oil. The oil is taken up in methanol, 1/8 its volume of dH20 is added and the solution refluxed for 30 minutes. Next, an equal volume of water is added and the whole solution boiled openly until no more odor of benzaldehyde is detected (smells like almond extract). The solution is acidified with acetic acid, washed with ether (discard ether), the MDMA or meth freebase liberated with NaOH and extracted with ether to afford a yield of 90% for meth and 65% for MDMA. That s not a bad conversion but what s with having to use benzaldehyde (a List chemical) Strike wonders if another aldehyde can substitute. 

N-Alkylpyrroles may be obtained by the Knorr synthesis or by the reaction of the pyrrolyl metallates, ie, Na, K, and Tl, with alkyl haUdes such as iodomethane, eg, 1-methylpyrrole [96-54-8]. Alkylation of pyrroles at the other ring positions can be carried out under mild conditions with allyhc or hensylic hahdes or under more stringent conditions (100—150°C) with CH I. However, unless most of the other ring positions are blocked, poly alkylation and polymerisation tend to occur. N-Alkylation of pyrroles is favored by polar solvents and weakly coordinating cations (Na", K" ). More strongly coordinating cations (Li", Mg " ) lead to more C-alkylation. 

The principal PIC for penta and penta-treated wood would include volatile organic compounds (VOCs), semivolatile organic compounds (SVOCs), dioxins and furans, as well as SOj, COj, NO, and HCl. Penta would be expected to have undergone a very high destruction efficiency (DRE) during the fire (> 99.99%). Among the VOC emissions, the following chemicals likely contributed to air pollution problems benzene, bromobenzene, chloromethane, 1,3-butadiene, iodomethane, acetone, chloroform, and 1,2-dichloroethane. 

A positive value for AH° signifies an endothermic reaction. The reactants are more stable than the products, and so iodination of alkanes is not a feasible reaction. You would not want to attempt the preparation of iodomethane by iodination of methane. 

The first use of chiral oxazolines as activating groups for nucleophilic additions to arenes was described by Meyers in 1984. " Reaction of naphthyloxazoline 3 with phenyllithium followed by alkylation of the resulting anion with iodomethane afforded dihydronaphthalene 10 in 99% yield as an 83 17 mixture of separable diastereomers. Reductive cleavage of 10 by sequential treatment with methyl fluorosulfonate, NaBKi, and aqueous oxalic acid afforded the corresponding enantiopure aldehyde 11 in 88% yield. 

Meyers has demonstrated that chiral oxazolines derived from valine or rert-leucine are also effective auxiliaries for asymmetric additions to naphthalene. These chiral oxazolines (39 and 40) are more readily available than the methoxymethyl substituted compounds (3) described above but provide comparable yields and stereoselectivities in the tandem alkylation reactions. For example, addition of -butyllithium to naphthyl oxazoline 39 followed by treatment of the resulting anion with iodomethane afforded 41 in 99% yield as a 99 1 mixture of diastereomers. The identical transformation of valine derived substrate 40 led to a 97% yield of 42 with 94% de. As described above, sequential treatment of the oxazoline products 41 and 42 with MeOTf, NaBKi and aqueous oxalic acid afforded aldehydes 43 in > 98% ee and 90% ee, respectively. These experiments demonstrate that a chelating (methoxymethyl) group is not necessary for reactions to proceed with high asymmetric induction. 

P-amino acid products. Treatment of oxazoline 53 with 7V-lithiopiperidine followed by alkylation with iodomethane affords aniline derivative 54 in 94% yield and 99% de. Hydrolysis of the oxazoline group provided amino acid 55 in 92% yield and >99% ee. 

Methyl-ierung, -isiertmg, /. methylation. -jodid, n. methyl iodide, iodomethane. -kautschuk, m. methyl rubber. Methylostarke,/. methylstarch. Methyl-oxydhydrat, n. methyl hydroxide (meth-... 

In addition to their systematic names, many simple alkyl halides are also named by identifying first the alkyl group and then the halogen, for example, CH3T can be called either iodomethane or methyl iodide. Such names are well entrenched in the chemical literature and in daily usage, but they won t be used in this book. 

Methyl esters (RCO2CH3) undergo a cleavage reaction to yield carboxylate ions plus iodomethane on heating with Lil in dimethylformamide ... 

Ethers can be prepared by reaction of an alkoxide or phenoxide ion with a primary alkyl halide. Anisole, for instance, results from reaction of sodium phenoxide with iodomethane. What kind of reaction is occurring Show the mechanism. 

A useful variation of the Williamson synthesis involves silver oxide, Ag20, as a mild base rather than NaH. Under these conditions, the free alcohol reacts directly with alkyl halide, so there is no need to preform the metal alkoxide intermediate. Sugars react particularly well glucose, for example, reacts with excess iodomethane in the presence of Ag20 to generate a pentaether in 85% yield. 

Because the Williamson synthesis is an S 2 reaction, it is subject to all the usual constraints, as discussed in Section 11.2. Primary halides and tosylates work best because competitive E2 elimination can occur with more hindered substrates. Unsymmetrical ethers should therefore be synthesized by reaction between the more hindered alkoxide partner and less hindered halide partner rather than vice versa. For example, terf-butyl methyl ether, a substance used in the 1990s as an octane booster in gasoline, is best prepared by reaction of tert-butoxide ion. with iodomethane rather than by reaction of methoxide ion with 2-chloro-2-methylpropane. 

Methyl aryl ethers, such as anisole, are cleaved to iodomethane and a phen-oxide ion by treatment with Li) in hot DMR Propose a mechanism for this reaction. 

An alkylation reaction is used to introduce a methyl or primary alkyl group onto the a position of a ketone, ester, or nitrile by S 2 reaction of an enolate ion with an alkyl halide. Thus, we need to look at the target molecule and identify any methyl or primary alkyl groups attached to an a carbon. In the present instance, the target has an a methyl group, which might be introduced by alkylation of an ester enolate ion with iodomethane. 

Many of the reactions of amines are familiar from past chapters. Thus, amines react with alkyl halides in S 2 reactions and with acid chlorides in nucleophilic acyl substitution reactions. Amines also undergo E2 elimination to yield alkenes if they are first qualernized by treatment with iodomethane and then heated with silver oxide, a process called the Hofmann elimination. 

Name the following amine, including R,S stereochemistry, and draw the product of its reaction with excess iodomethane followed by heating with Ag20 (Hofmann elimination). Is the stereochemistry of the alkene product Z or E Explain. 

Hofmann elimination (Section 24.7) The elimination reaction of an amine to yield an alkene by reaction with iodomethane, followed by heating with Ag2Q. 

Koenigs-Knorr reaction of, 990 molecular model of, 119, 126, 985 mutarotation of, 985-986 pentnacetyl ester of, 988 pentamethyl ether of, 988 pyranose form of, 984-985 pyruvate from. 1143-1150 reaction with acetic anhydride, 988 reaction with ATP, 1129 reaction with iodomethane, 988 sweetness of. 1005 Williamson ether synthesis with. 988... 

In the case of 2,3-dihydro-l-benzothiepin 1-oxide (5), alkylation with iodomethane and silver (I) tetrafluoroborate leads to the methoxysulfonium salt 6 in 65% yield.86... 

Interestingly, treatment of bicyclic imidate 5 (R = OMe) with lithium diisopropylamide at — 78 C, followed by addition of iodomethane and quenching into ammonium chloride solution, gives 2-methoxy-3-methyl-37/-azepine. In the absence of iodomethane, 2-methoxy-3i/-azepine (6, R = OMe) is produced. Rearrangement of the lithiated bicycle to a lithiated 2-methoxy-3//-azepine, followed by regioselective trapping by the electrophile, is the most likely mechanistic rationale. 

Deethoxycarbonylation of the acetyl derivative 31 is accomplished with methanolic sodium methoxide, and the resulting (i/4-3-acetyl-l//-azepine)tricarbonyliron(0) can be methylated at nitrogen with iodomethane and sodium hydride.226... 

Methylation of 6-(methylsulfanyl)-l//-azepin-2(3//)-thione with iodomethane and potassium carbonate in acetone at 20°C yields 2,6-bis(mcthylsulfanyl)-3//-azcpinc (65% bp 150 C/0.01 Torr).64... 

Methylation of indeno[l,2-r/]azepin-4(3//)-one (22) with iodomethane under phase transfer conditions produces the A-methyl derivative, whereas ethylation with Meerwein s reagent yields purple crystals of the indeno[l, 2-r/Jazepine 23, a 147r-aromatic system.57 1 l-Bromo-4-ethoxyin-deno[l,2-r/]azepine (69% mp 143-144°C) can be prepared similarly. 

Attempts to methylate the carbanion derived from ethyl 2-(diethylamino)-5-phenyl-3//-azepine-3-carboxylate (14) with iodomethane leads to the formation of the 3-azabicyclo[4.1.0]cyclo-hepta-2.4-diene 15.225... 

Dibenz[r,e,]azcpinium salts, e.g. 3 and 6, arc also obtained by O- and 5-alkylation of 6,7-dihydro-5//-dibenz[f,e]azepin-7-ones 2 and -7-thiones 5 with trimethyloxonium tetrafluo-roborate.181 iodomethane,181 or methyl trifluoromethanesulfonate.12 Treatment of the tri-fluoromethanesulfonates 3 and 6 (X = OTf), or the tetrafluoroborate 6 (X = BF4) with 2 M sodium hydroxide in dichloromethane liberates the free bases 4 and 7, respectively.7,181... 

S-Alkylation of 9-methoxy-5//-pyrido[3.2-e]azcpine-7(6//)-thione (10), prepared from the pyridoazepin-7-one 9 with phosphorus pentasulfide in pyridine, is achieved to give 11 in high yield with iodomethane in basic solution.191... 

Catalytic hydrogenation of dimethyl 3-methyl-3//-3-benzazepine-2,4-dicarboxylate (10) to the 1,2,4,5-tetrahydro derivative with hydrogen and a palladium-barium sulfate catalyst, followed by treatment of the reaction mixture with iodomethane in refluxing methanol, yields a mixture of the 2,4-dicarboxylic acid 11 and the methiodide salt 12.24... 

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