ChemInform Abstract: REACTION OF ′MYRCENE-MAGNESIUM′ WITH ESTERS, ACETYL CHLORIDE, AND ACETIC ANHYDRIDE- FORMATION OF CYCLOPENTENOLS AND CYCLOPROPANE DERIVATIVES

Acetylations of 3-ferrocenyl-1-methylpyrrole as well as 3-cyano-4-ferrocenylpyrrole and 3-cyano-4-ferrocenyl-1-methylpyrrole were performed. The course of the acylation is highly dependent on the acylation agent, that is acetyl chloride/aluminum chloride (method A), trifluoroacetic anhydride-acetic acid mixture (method B) or acetic anhydride/Sc(OTf)3 (method C). Method A gives the acetylation on ferrocene moiety, method B affords the trifluoroacetylation on pyrrole moiety and method C affords pyrrole moiety acetylation. Vielsmeier-Haack formylation gives the products of substitution on pyrrole moiety.

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Conductance of Solutions of Water, Acetic Anhydride and Acetyl Chloride in Acetic Acid

Journal of the American Chemical Society ◽

10.1021/ja01477a011 ◽

1961 ◽

Vol 83 (16) ◽

pp. 3400-3405 ◽

Cited By ~ 4

Author(s):

Thomas B. Hoover ◽

A. Witt Hutchison

Keyword(s):

Acetic Acid ◽

Acetic Anhydride ◽

Acetyl Chloride

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The Acetylation of Toluene and Benzene with Acetyl Chloride and Bromide and Acetic Anhydride Catalyzed by Calcined Iron Sulfate Activated by Exposure to a Mixture of Benzyl Chloride and the Aromatics

Bulletin of the Chemical Society of Japan ◽

10.1246/bcsj.53.446 ◽

1980 ◽

Vol 53 (2) ◽

pp. 446-449 ◽

Cited By ~ 13

Author(s):

Kazushi Arata ◽

Makoto Hino

Keyword(s):

Acetic Anhydride ◽

Benzyl Chloride ◽

Acetyl Chloride ◽

Iron Sulfate

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ChemInform Abstract: Functionally Substituted Sulfur-Containing Compounds. Part 9. Reactions of 2-((Organylthio)methyl)oxiranes, e.g. (I), with Acetic Anhydride and Acetyl Chloride (II).

ChemInform ◽

10.1002/chin.199319144 ◽

2010 ◽

Vol 24 (19) ◽

pp. no-no

Author(s):

V. E. KALUGIN ◽

V. P. LITVINOV

Keyword(s):

Acetic Anhydride ◽

Acetyl Chloride ◽

Sulfur Containing ◽

Sulfur Containing Compounds

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Hot-Tube Reactions of Dehydroabietic Acid with Ketene-Producing Reagents. Pyrolysis of the Acid Chloride and Symmetrical and Mixed Anhydride Derivatives of Dehydroabietic Acid

Canadian Journal of Chemistry ◽

10.1139/v73-484 ◽

1973 ◽

Vol 51 (19) ◽

pp. 3236-3241 ◽

Cited By ~ 6

Author(s):

Ray F. Severson ◽

Walter H. Schuller

Keyword(s):

Acetic Acid ◽

Acetic Anhydride ◽

Acid Chloride ◽

Acetyl Chloride ◽

Dehydroabietic Acid ◽

Mixed Anhydride ◽

Temperature Range ◽

Acid Isomerization ◽

Derivatives Of ◽

Isopropenyl Acetate

Dehydroabietic acid (1a) was reacted with diketene, acetic acid, acetic anhydride, isopropenyl acetate, acetyl chloride, and acetone on Vycor rod at 450 °C in a hot tube. Dehydroabietic anhydride (1b) and acetyl dehydroabietate (1c) were pyrolyzed at 450 °C and dehydroabietyl chloride (1d) was pyrolyzed over a temperature range of 290–500 °C. The major olefin products resulting from decarboxylation of the various derivatives were 19-norabieta-4,8,11,13-tetraene (2), 19-norabieta-4(18),8,11,13-tetraene (3), 19-norabieta-3,8,11,13-tetraene (4), and cis-1,10a-dimethyl-7-isopropyl-1,2,3,9,10,10a-hexahydrophenanthrene (5). High conversions to these compounds were obtained. In the presence of the ketene-producing reagents the olefins were oxidized to yield substantial amounts of retene (6), compounds 2 and 5 being the most readily dehydrogenated. The acid isomerization of 2, 3, 4, and 5 was studied using p-toluenesulfonic acid in toluene at 110 °C.

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The hydrolysis of acetic anhydride. Part IV. Catalysis by hydrochloric acid and the hydrolysis of acetyl chloride

Journal of the Chemical Society (Resumed) ◽

10.1039/jr9550000838 ◽

1955 ◽

pp. 838 ◽

Cited By ~ 5

Author(s):

V. Gold ◽

J. Hilton

Keyword(s):

Hydrochloric Acid ◽

Acetic Anhydride ◽

Acetyl Chloride ◽

Hydrolysis Of

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Color Reactions of Rubber and Gutta-Percha

Rubber Chemistry and Technology ◽

10.5254/1.3535342 ◽

1929 ◽

Vol 2 (2) ◽

pp. 193-196

Author(s):

F. Kirchhof

Keyword(s):

Acetic Acid ◽

Acetic Anhydride ◽

Zinc Chloride ◽

Trichloroacetic Acid ◽

Acetyl Chloride ◽

Oxidation Products ◽

Arsenic Trichloride ◽

Gutta Percha ◽

Long Time ◽

Color Reactions

Abstract THE present paper was suggested by a recent publication of Pauly on the same subject, who applied the well known sterol reactions of Hesse, Liebermann, Tschugajeff, etc., to the hydrocarbons of rubber and gutta-percha. These reactions depend either upon the action of concentrated H2SO4 on chloroform solutions of the substances in the presence or absence of acetic anhydride (Liebermann, Burchard and Hesse reactions) or other solvents, or condensation reagents are used, such as acetyl chloride and zinc chloride by Tschugajeff, and acetic acid with arsenic trichloride by Kahlenberg, and trichloroacetic acid with a trace of formaldehyde by Godoletz. All the known sterol reactions take place also with rubber or gutta-percha, with the appearance of intense red or violet colorations of varying stability, the color depending in part upon the quality and in part upon the purity of the samples. The Burchard reaction in particular is very sensitive in these respects. Thus with rubber purified with alkali by the Pummerer method, the color is a Bordeaux red which does not change for a long time, whereas solutions of unpurified rubber change rapidly, a change which is rightly ascribed by Pauly to relatively rapid oxidation in the presence of oxidation products in the case of the unpurified rubber.

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