Some reactions of alkyl iodides and perfluoroalkyl iodides with iodides of group V elements

Baig, Mirza Mohammed

January 1961

The reaction of alkyl iodides with phenyl-iodo-arsines in the presence of mercury has been found to yield arsonium derivatives of triiodomercury (II). Extension of these reactions to other iodides of the Group V elements showed that when reacted with iodomethane and mercury, phosphorus triiodide gave the 1:1 complex of trimethylphosphine and mercuric iodide; antimony triiodide gave tetramethylstibonium triiodomercury (II); diiodophenylstibine reacted only to a limited extent; and bismuth triiodide gave an unstable product. Trifluoroiodomethane failed to react with the Group V iodides in the presence of mercury. Because of the possibility that 1:1 tertiary arsine mercuric iodide complexes are intermediates in the reactions which give rise to arsonium triiodomercury (II) derivatives, the reaction of these complexes with alkyl iodides was investigated. In all cases investigated using iodomethane, direct reaction occurred with the formation of arsonium triiodomercury (II) derivatives. Iodoethane, bromoethane and trifluoroiodomethane were found to react only to a slight extent, if at all, with tertiary arsine mercuric iodide complexes. / Science, Faculty of / Chemistry, Department of / Graduate

Iodides

Alkyl iodides

Chemical reactions

Electron spin resonance studies of radicals produced in glassy and polycrystalline alkyl iodides by gamma radiolysis

Fenrick, Harold William,

January 1966

Thesis (Ph. D.)--University of Wisconsin, 1966. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliography.

Simple Synthesis of Fresh Alkyl Iodides Using Alcohols and Hydriodic Acid

Klein, Suzane, Zhang, Cungen, Jiang, Yu Lin

14 April 2008

A simple synthesis of fresh alkyl iodides using alcohols and hydriodic acid (HI) is reported. The alkyl iodides were obtained in quick and easy work-up with good to excellent yields (66-94%) and very high purities (97-99%). Freshly prepared iodomethane and 1-iodobutane were applied to synthesize biologically relevant 3,7-dimethyladenine and 9-butyladenine, which were characterized thoroughly using 1D and 2D NMR, individually.

alcohols

alkyl bromides

alkyl iodides

hydriodic acid

hydriodination

hydrobromination

hydrogen bromide

Synthesis of ¹¹C-labelled Alkyl Iodides : Using Non-thermal Plasma and Palladium-mediated Carbonylation Methods

Eriksson, Jonas

January 2006

<p>Compounds labelled with ¹¹C (<i>β</i>⁺, t_1/2 = 20.4 min) are used in positron emission tomography (PET), which is a quantitative non-invasive molecular imaging technique. It utilizes computerized reconstruction methods to produce time-resolved images of the radioactivity distribution in living subjects. </p><p>The feasibility of preparing [¹¹C]methyl iodide from [¹¹C]methane and iodine via a single pass through a non-thermal plasma reactor was explored. [¹¹C]Methyl iodide with a specific radioactivity of 412 ± 32 GBq/µmol was obtained in 13 ± 3% decay-corrected radiochemical yield within 6 min via catalytic hydrogenation of [¹¹C]carbon dioxide (24 GBq) and subsequent iodination, induced by electron impact. </p><p>Labelled ethyl-, propyl- and butyl iodide was synthesized, within 15 min, via palladium-mediated carbonylation using [¹¹C]carbon monoxide. The carbonylation products, labelled carboxylic acids, esters and aldehydes, were reduced to their corresponding alcohols and converted to alkyl iodides. [1-¹¹C]Ethyl iodide was obtained via palladium-mediated carbonylation of methyl iodide with a decay-corrected radiochemical yield of 55 ± 5%. [1-¹¹C]Propyl iodide and [1-¹¹C]butyl iodide were synthesized via the hydroformylation of ethene and propene with decay-corrected radiochemical yields of 58 ± 4% and 34 ± 2%, respectively. [1-¹¹C]Ethyl iodide was obtained with a specific radioactivity of 84 GBq/mmol from 10 GBq of [¹¹C]carbon monoxide. [1-¹¹C]Propyl iodide was synthesized with a specific radioactivity of 270 GBq/mmol from 12 GBq and [1-¹¹C]butyl iodide with 146 GBq/mmol from 8 GBq. </p><p>Palladium-mediated hydroxycarbonylation of acetylene was used in the synthesis of [1-¹¹C]acrylic acid. The labelled carboxylic acid was converted to its acid chloride and subsequently treated with amine to yield <i>N-</i>[<i>carbonyl</i>-¹¹C]benzylacrylamide. In an alternative method, [<i>carbonyl</i>-¹¹C]acrylamides were synthesized in decay-corrected radiochemical yields up to 81% via palladium-mediated carbonylative cross-coupling of vinyl halides and amines. Starting from 10 ± 0.5 GBq of [¹¹C]carbon monoxide, <i>N-</i>[<i>carbonyl</i>-¹¹C]benzylacrylamide was obtained in 4 min with a specific radioactivity of 330 ± 4 GBq/µmol. </p>

Organic chemistry

isotopic labelling

carbon-11

alkyl iodides

acrylamides

specific radioactivity

carbonylation

carbon monoxide

non-thermal plasma

PET

Organisk kemi

Synthesis of 11C-labelled Alkyl Iodides : Using Non-thermal Plasma and Palladium-mediated Carbonylation Methods

Eriksson, Jonas

January 2006

Compounds labelled with 11C (β+, t1/2 = 20.4 min) are used in positron emission tomography (PET), which is a quantitative non-invasive molecular imaging technique. It utilizes computerized reconstruction methods to produce time-resolved images of the radioactivity distribution in living subjects. The feasibility of preparing [11C]methyl iodide from [11C]methane and iodine via a single pass through a non-thermal plasma reactor was explored. [11C]Methyl iodide with a specific radioactivity of 412 ± 32 GBq/µmol was obtained in 13 ± 3% decay-corrected radiochemical yield within 6 min via catalytic hydrogenation of [11C]carbon dioxide (24 GBq) and subsequent iodination, induced by electron impact. Labelled ethyl-, propyl- and butyl iodide was synthesized, within 15 min, via palladium-mediated carbonylation using [11C]carbon monoxide. The carbonylation products, labelled carboxylic acids, esters and aldehydes, were reduced to their corresponding alcohols and converted to alkyl iodides. [1-11C]Ethyl iodide was obtained via palladium-mediated carbonylation of methyl iodide with a decay-corrected radiochemical yield of 55 ± 5%. [1-11C]Propyl iodide and [1-11C]butyl iodide were synthesized via the hydroformylation of ethene and propene with decay-corrected radiochemical yields of 58 ± 4% and 34 ± 2%, respectively. [1-11C]Ethyl iodide was obtained with a specific radioactivity of 84 GBq/mmol from 10 GBq of [11C]carbon monoxide. [1-11C]Propyl iodide was synthesized with a specific radioactivity of 270 GBq/mmol from 12 GBq and [1-11C]butyl iodide with 146 GBq/mmol from 8 GBq. Palladium-mediated hydroxycarbonylation of acetylene was used in the synthesis of [1-11C]acrylic acid. The labelled carboxylic acid was converted to its acid chloride and subsequently treated with amine to yield N-[carbonyl-11C]benzylacrylamide. In an alternative method, [carbonyl-11C]acrylamides were synthesized in decay-corrected radiochemical yields up to 81% via palladium-mediated carbonylative cross-coupling of vinyl halides and amines. Starting from 10 ± 0.5 GBq of [11C]carbon monoxide, N-[carbonyl-11C]benzylacrylamide was obtained in 4 min with a specific radioactivity of 330 ± 4 GBq/µmol.

Organic chemistry

isotopic labelling

carbon-11

alkyl iodides

acrylamides

specific radioactivity

carbonylation

carbon monoxide

non-thermal plasma

PET

Organisk kemi