Organic Syntheses, CV 5, 434
N,N-DIMETHYLAMINOMETHYLFERROCENE METHIODIDE
[Iron, cyclopentadienyl[(dimethylaminomethyl)cyclopentadienyl]-, methiodid]
Submitted by Daniel Lednicer and Charles R. Hauser
1.
Checked by B. C. McKusick, W. A. Sheppard, R. D. Vest, and H. F. Mower.
1. Procedure
Ferrocene (46.4 g., 0.250 mole) (Note
1) is added to a well-stirred solution of
43.2 g. (0.422 mole) of bis(dimethylamino)-methane (Note
2) and
43.2 g. of phosphoric acid in
400 ml. of acetic acid in a
2-l. three-necked round-bottomed flask equipped with a
condenser, a
nitrogen inlet, and a
mechanical stirrer (Note
3). The resulting suspension is heated on a
steam bath under a slow stream of
nitrogen (Note
4) for 5 hours (Note
5). The reaction mixture, a dark-amber solution, is allowed to cool to room temperature and is diluted with 550 ml. of water. The unreacted
ferrocene is removed by extracting the solution with three
325-ml. portions of ether. The aqueous solution is then cooled in ice water and made alkaline by the addition of
245 g. of sodium hydroxide pellets. The tertiary amine separates from the alkaline solution as an oil in the presence of some black tar (Note
6). The mixture is extracted with three
500-ml. portions of ether. The organic solution is washed with water and dried over
sodium sulfate. Crude
dimethylaminomethylferrocene is obtained as a dark-red mobile liquid when the solvent is removed at the
water pump (Note
7).
To a gently swirled solution of the crude amine in
54 ml. of methanol is added
54 ml. (123 g., 0.87 mole) of methyl iodide. The solution is heated on a steam bath for 5 minutes and cooled to room temperature, and
800 ml. of ether is added. The methiodide, which separates as an oil, crystallizes on being scratched. The solid is collected on a
Büchner funnel, washed with
ether, and dried at 20–50 mm. for several hours at room temperature to yield
65–78 g. (
68–81%; (Note
8)) of
N,N-dimethylaminomethylferrocene methiodide as an orange powder, m.p.
200° (dec.) (Note
9).
2. Notes
1. The
ferrocene may be prepared by Wilkinson's procedures2 or it may be purchased from Matheson, Coleman and Bell, East Rutherford, New Jersey, and other companies.
2. The amine, under the name
N,N,N',N'-tetramethylmethylenediamine, may be purchased from Ames Laboratories, South Norwalk, Connecticut. The checkers prepared it by the following procedure. A solution of
60.7 g. (0.75 mole) of 37% aqueous formaldehyde solution is placed in an
800-ml. beaker equipped with a
mechanical stirrer and
thermometer, and cooled in an
ice bath.
Two hundred seventy-one grams (1.50 moles) of a 25% aqueous solution of dimethylamine is added to this solution at a rate such that the reaction temperature is kept below 15°. The solution is stirred for 30 minutes after the addition is complete, and
potassium hydroxide pellets (approximately 150 g.) are added in portions until the reaction mixture separates into two layers. The upper layer is separated, dried over
potassium hydroxide pellets overnight, and distilled to give
59–64 g. (
77–83%) of
bis (dimethylamino) methane, b.p.
83–84°.
3
3. The mixing of the amine and acids is exothermic. It is necessary to add the amine dropwise to the solution of acids with stirring and cooling in an ice bath.
4. Since
ferrocene and many of its derivatives are easily oxidized by air in the presence of acids,
nitrogen is passed in at a rate sufficient to exclude air from the system.
5. It was found that the reaction is essentially complete after 5 hours. Further heating does not affect the yield.
6. The checkers found that the solution turned into a gel after the addition of
sodium hydroxide. They obtained satisfactory results by adding 200 ml. of water to the gel, which made it fluid enough to be extractable with
ether.
7. Distillation of the tertiary amine before methiodide formation does not significantly affect the yield or purity of the quaternary salt. The amine boils at
91–92°/0.45 mm.
8. The submitters report yields as high as
89%.
9. The melting point of this compound is ill-defined by reason of considerable darkening and shrinking that start at 175°. The product thus obtained is sufficiently pure for use in further reactions.
4
3. Discussion
This procedure is based on the method of Lindsay and Hauser
3 as modified slightly by Osgerby and Pauson.
5 N,N-dimethylaminomethylferrocene methiodide has also been prepared by heating
formylferrocene with
dimethylamine and
hydrogen in the presence of
Raney nickel catalyst to give
dimethylaminomethylferrocene, which was quaternized with
methyl iodide.
6
This preparation is referenced from:
Appendix
Compounds Referenced (Chemical Abstracts Registry Number)
Ferrocene
N,N-Dimethylaminomethylferrocene methiodide
Iron, cyclopentadienyl[(dimethylaminomethyl)cyclopentadienyl]-, methiodid
dimethylaminomethylferrocene
formylferrocene
acetic acid (64-19-7)
methanol (67-56-1)
ether (60-29-7)
hydrogen (1333-74-0)
sodium hydroxide (1310-73-2)
formaldehyde (630-08-0)
sodium sulfate (7757-82-6)
nitrogen (7727-37-9)
Raney nickel (7440-02-0)
potassium hydroxide (1310-58-3)
phosphoric acid (7664-38-2)
Methyl iodide (74-88-4)
dimethylamine (124-40-3)
α-methylstyrene (98-83-9)
Bis(dimethylamino) methane,
bis (dimethylamino) methane,
bis(dimethylamino)-methane,
N,N,N',N'-tetramethylmethylenediamine (51-80-9)
1-Methylindole (603-76-9)
1-methyl-3-(N,N-dimethylaminomethyl)indole
α-(N,N-dimethylaminoethyl)styrene
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