Organic Synthes, Coll. Vol. 6, p.56 (1988); Vol. 55, p.114 (1976).

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Organic Synthes, Coll. Vol. 6, p.56 (1988); Vol. 55, p.114 (1976).
PREPARATION OF N-AMINOAZIRIDINES: trans-1-AMINO-2,3-DIPHENYLAZIRIDINE, 1-AMINO-2-PHENYLAZIRIDINE, AND 1-AMINO-2-PHENYLAZIRIDINIUM ACETATE
[1-Aziridinamine, trans-(±)-2,3-diphenyl-, 1-aziridinamine, (±)-2-phenyl-, and 1-
aziridinamine, monoacetate, (±)-2-phenyl-]
Submitted by Robert K. Müller, Renato Joos, Dorothee Felix, Jakob Schreiber, Claude Wintner, and A. Eschenmor1.
Checked by Robert E. Ireland, J. Kleckner, and David M. Walba.
1. Procedure
Caution! Steps B and D should be carried out in a hood behind a safety screen.
A. trans-2,3-Diphenyl-1-phthalimidoaziridine(Note 1). A 1-l., three-necked, round-bottomed flask equipped with an efficient mechanical stirrer is charged with a mixture of 19.5 g (0.120 mole) of N-
aminophthalimide(Note 2), 108 g. (0.600 mole) of (E)-stilbene(Note 3), and 300 ml. of dichloromethane(Note 4). To the resulting suspension is added 60 g. (ca. 0.12 mole) of lead tetraäcetate (Note 5) over a period of 10 minutes, at room temperature with vigorous stirring. Stirring is continued for an additional 30 minutes, after which time the mixture is filtered through Celite®, which is washed twice with 50-ml. portions of dichloromethane. The combined filtrates are transferred to a 4-l. beaker, and 1.5 l. of pentane is added with gentle stirring and cooling in an ice bath. The yellow precipitate that forms after 15 minutes is suction filtered and redissolved in 200 ml.
of dichloromethane. The solution obtained is swirled for 5 minutes with 20 g. of silica gel, filtered through Celite®, which is washed with two 100-ml. portions of dichloromethane. To this dichloromethane solution is added 1.5 l. of pentane, with cooling. The precipitate that forms after 0.5 hour is dried under vacuum (10 mm.) at room temperature for 5 hours, yielding 16–21 g. (39–51%) of product, m.p. 175°, which is of sufficient purity for u in the next step (Note 6).
B. trans-1-Amino-2,3-diphenylaziridine(Note 7). To a magnetically stirred suspension of 20.4 g.
(0.0600 mole) of trans-2,3-diphenyl-1-phthalimidoaziridine in 150 ml. of 95% ethanol in a 500-ml., round-bottomed flask at room temperature is added 150 ml. (3 moles) (Note 8) of hydrazine hydrate (Note 9). The mixture is stirred for 40 minutes while maintaining the temperature at 43–45° (Note 10) with a thermostatted oil bath. The resulting cloudy yellow solution (Note 11) is cooled and filtered through Celite®. The filtrate is poured into a 2-l. paratory funnel containing 400 ml. of diethyl ether and 200 g. of ice, and shaken vigorously. The organic pha is parated and washed with three 200-ml. portions of ice-cold water, and the aqueous washings are reextracted with a 250-ml. portion of ether (Note 12). The combined ethereal extracts are dried over anhydrous potassium carbonate, filtered through Celite® if necessary, and concentrated to approximately 300 ml. on a rotary evaporator at room temperature. Addition of 400 ml. of pentane and overnight storage at −20° leads
to crystallization of 7.9–9.5 g. (63–75%) of trans-1-amino-2,3-diphenylaziridine(Note 13) as colorless crystals, m.p. 93–94° (dec.) (Note 14). An additional 1.2–2.2 g.. (10–17%) is obtained by concentration of the mother liquor to 50–80 ml. and addition of approximately 50 ml. of pentane(Note 7).
C. Styrene glycol dimesylate(Note 15). A 300-ml., three-necked, round-bottomed flask equipped with a thermometer, an efficient stirrer (Note 16), and a dropping funnel is charged with a solution of 34.5 g. (0.250 mole) of styrene glycol(Note 17) in 90 ml. of pyridine(Note 18). The solution is cooled to −5° with an ice–salt bath, and 64.7 g. (43.7 ml., 0.560 mole) of methanesulfonyl chloride(Note 19) is added dropwi over a 1-hour period, while maintaining the temperature at or below 0° (Note 20). Stirring is continued for 4 hours at 2–4°, with the flask cooled with an ice-water bath. The reaction mixture is mixed thoroughly with 600 g. of ice, and the dimesylate precipitates. After careful acidification of the mixture with 6 N hydrochloric acid to approximately pH 3 (Note 21), the dimesylate is suction filtered, washed twice with 100-ml. portions of ice water, and presd as dry as possible. This product, which is still moist, is transferred to a paratory funnel and is shaken well with 200 ml. of dichloromethane. The dichloromethane is parated, and the aqueous layer is extracted further with two 20-ml. portions of dichloromethane. The combined dichloromethane layers
are dried over anhydrous magnesium sulfate, and 250–300 ml. of pentane is added to the solution, until crystallization just begins. After 2 hours in a deep freeze at −25°, the crystals are collected, washed with two 30-ml. portions of pentane precooled to 0°, and dried to constant weight in a vacuum desiccator (10 mm.) at room temperature, yielding 62–64 g. (84–86%) of white, crystalline dimesylate, m.p. 93–94° (Note 15).
D. Hydrazinolysis of styrene glycol dimesylate. A 1-l., round-bottomed flask equipped with a magnetic stirring bar is charged with 50 ml. (1 mole) of hydrazine hydrate(Note 9). Finely powdered styrene glycol dimesylate (20 g., 0.068 mole), m.p. 93–94°, is then added with gentle stirring at room temperature. To the resulting slurry is slowly added 600 ml. of pentane. The stirring speed should be adjusted in such a manner that the two phas mix somewhat, but the dimesylate–hydrazine hydrate layer is not deposited on the upper walls of the flask. After 20–24 hours of stirring at room temperature two entirely clear layers can be obrved upon the cessation of stirring (Note 22), indicating that the reaction is complete. The hydrazine hydrate is parated from the pentane and extracted with two 30-ml. portions of pentane. The combined pentane layers are filtered through cotton, which holds back any remaining droplets of hydrazine hydrate, into a 1-l., round-bottomed flask. At this point Step E is followed for 1-amino-2-phenylaziridine, and Step F for 1-amino-2-phenylaziridinium acetate.
E. 1-Amino -2-phenylaziridine  (Note 23). If the pentane solution from Step D  is removed on a rotary evaporator at room temperature, 7.5–7.7 g.. (82–85%) of 1-amino-2-phenylaziridine , suitable for preparative u, is obtained. Kügelrohr distillation of this material on a 1–2 g. scale (0.01 mm./60–65° oven temperature) (Note 24) gives a recovery of over 90% (Note 23) and (Note 25).
F. 1-Amino -2-phenylaziridinium acetate  (Note 23). The pentane  solution from Step D  is stirred with a magnetic stirrer and cooled to 0°, and 3.9 ml. (0.068 mole) of acetic acid  is measured. Three drops of acetic acid  are added at first, and stirring is continued at 0° until the precipitation of white 1-amino-2-phenylaziridinium acetate  begins. If necessary, crystallization is initiated by scratching with a glass rod or by addition of a ed crystal from a previous run. The remainder of the acetic acid  is added over a 10-minute period, and stirring is continued for an additional 20 minutes, while maintaining the temperature at 0°. The salt is filtered, washed with 30 ml. of pentane  precooled to 0°, and dried in a vacuum desiccator (10 mm.) at room temperature, yielding 10.0–10.5 g. (76–79%) (Note 26) of product, m.p. 69–70° (Note 27) which is suitable for preparative purpos. Recrystallization is possible; however, it must be carefully carried out to avoid the formation of a yellow product, who melting point is lower than that of the crude product. A solution of 10 g. of 1-amino-2-phenylaziridinium acetate  in 40 ml. of dichloromethane  is prepared at a maximum tempera
ture of 20–22°. The turbid solution is immediately filtered through Celite®, which is washed with two 10-ml. portions of dichloromethane . The resulting clear solution is treated with 200–250 ml. of pentane  until crystallization just begins, and placed in a deep freeze at −25° for 2 hours. Filtration, washing with 30 ml. of pentane  precooled to 0°, and drying as before, afford 9.2–9.3 g. of 1-amino-2-phenylaziridinium acetate , m.p. 70–72° (Note 23) and (Note 28).
2. Notes
1. trans -2,3-Diphenyl-1-phthalimidoaziridine  is available from Fluka AG, CH-9470 Buchs.
2. N -Aminophthalimide  is available from Fluka AG or may be prepared from phthalimide  and hydrazine .2 The quality is important; the m.p. should be 199–202° with subquent resolidification of the melt due to thermal reaction. Recrystallization, if necessary, can be carried out in ethanol . The checkers obrved that with one batch of recrystallized material, the solid never really did melt, but emed to sinter at 200°.
3. Technical grade (E )-stilbene  obtained from Fluka AG gives satisfactory results, although a better grade is preferable. The checkers ud reagent grade material obtained from Aldrich Chemical Company, Inc.
4. This was distilled over phosphorus pentoxide .
5. "Purum" grade lead tetraäcetate , 85–90%, moistened with acetic acid , obtained from Fluka AG was ud. The checkers ud reagent grade material, moistened with acetic acid , purchad from Matheson, Coleman and Bell.
6. The yield of the reaction, while always at least 39%, is subject to fluctuation. The product may be contaminated with small amounts of (E )-stilbene  and/or lead salts. The prence of (E )-stilbene  can easily be monitored by TLC, using ready-prepared Silica Gel F 254 plates available from E. Merck & Company, Darmstadt, Germany. The plates are developed with dichloromethane , and the spots detected under UV light. In runs of smaller scale, or if product of higher purity is desired, column chromatography on silica gel may replace the work-up described; the reaction mixture is filtered through Celite®, and the resulting solution is concentrated on a rotary evaporator. The residue is then chromatographed on 570 g. of silica gel. Eluting with dichloromethane  gives the stilbene  first, then small amounts of unidentified impurities, and finally the desired adduct in 70–73% yield.
7. trans -1-Amino-2,3-diphenylaziridine  decompos thermally, largely to (E )-stilbene  and nitrogen .
In the crystalline state it is stable for veral hours at room temperature, and for veral weeks (probably for veral months) at −20°. It decompos within 3 days at room temperature in aprotic solvents and much more rapidly in protic solvents.3 Decomposition is still faster in the prence of traces of acids. The work-up described should be completed as quickly and as precily  as possible, and the product should be stored in a deep freeze if it is not to be ud immediately. For the u of this reagent in the α,β-epoxyketone fragmentation, e references 3 and 4.
8. U of lesr amounts of hydrazine hydrate  or ethanol  caus precipitation of the product as a pasty mass that dissolves only slowly in ether, thereby making the work-up difficult.
9. "Purum" grade hydrazine hydrate  obtained from Fluka AG was ud. The checkers ud 99–100%
hydrazine hydrate  purchad from Matheson, Coleman and Bell.10. The reaction temperature must be carefully controlled. At temperatures above 48° the yield is markedly reduced by decomposition of the product, and below 43° the reaction time is greatly lengthened. 11. The submitters report that if very pure trans -2,3-diphenyl-1-phthalimidoaziridine  is ud, no insoluble matter is prent at this point, and filtration through Celite® is not necessary. 12. Before working up the reaction mixture, it is
recommended to test whether the reaction is complete by TLC (Note 6). If (E )-stilbene  is obrved, the reaction should be interrupted immediately. The checkers found that the work-up was complicated by formation of emulsions; small quantities of brine were ud to aid paration of the phas. 13. IR (CHCl 3) cm.−1: 3340, 1603, 1495, 1450, 1085, 1070, 1030 (a weak band at 960 cm.−1 is due to (E )-stilbene, as there is always some decomposition of the trans -1-amino-2,3-diphenylaziridine  during the recording of the spectrum) (Note 7); 1H NMR (CDCl 3), δ (multiplicity, coupling constant J  in Hz., number of protons, assignment): 3.10 (broad m, 2H, N H 2), 3.22 and 3.36 (AB q, 2H, J  = 5), 7.1–7.6 (m, 10H). The nonequivalence of the two methine protons is due to slow inversion at nitrogen , and confirms the trans -2,3-substitution. 14. The melting-point tube is placed in the bath at 85° and heated rapidly. 15. A cond crystallization from dichloromethane –pentane  is sometimes necessary to achieve material having this melting point. Styrene glycol dimesylate  must be stored in a refrigerator, since slow decomposition takes place at room temperature. 16. Toward the end of the reaction, the mixture becomes quite viscous. Unless the stirring asmbly is capable of mixing material at the flask walls, homogeneous temperature control cannot be guaranteed. 17. Styrene glycol  is available from Aldrich Chemical Company, Inc., or from Eastman Organic Chemicals. Alternatively, it may be prepared by hydrolysis of styrene oxide .3 If the glycol melts at lower than 63°, it should be recrystallized before u. 18. Dried over potassium hydro
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xide  and distilled. 19. "Purum" grade methanesulfonyl chloride  supplied by Fluka AG or 98% pure material supplied by Eastman Organic Chemicals was ud. 20. The addition rate is about 30 drops/minute. After about half of the methanesulfonyl chloride  has been added, white crystals of pyridine hydrochloride  begin to precipitate, and the solution becomes viscous (Note 16). 21. About 110–120 ml. of 6 N  hydrochloric acid  is needed. The temperature should not be allowed to ri above 5°. 22. The rate of the reaction is influenced by the speed of stirring. At slow speeds, 30 hours may be required for completion without any decrea in the final yield. The role of pentane  is to continuously remove newly formed product from the hydrazine solvent. 23. 1-Amino-2-phenylaziridine  decompos at temperatures over 0°, and must therefore be stored in a deep freeze at −25°, at which temperature it is crystalline. 1-Amino-2-phenylaziridinium acetate  is somewhat more stable, but it too decompos within 2 days at room temperature. It can be kept unchanged in a deep freeze for months. For the u of the two reagents in the α,β-epoxyketone fragmentation, e references 3 and 4. 24. In order to minimize decomposition, the distillation should be carried out on small portions at the lowest possible temperature and pressure. 25. The distilled product has the following 1H NMR spectrum (CDCl 3), δ (number of protons, assignment): 1.91, 1.98, and 2.06 (2H, AB part of ABX), 2.50, 2.58, 2.64, and 2.72 (1H, X part of ABX), 3.60 (2H, N H 2), 7.25 (5H). Undistilled material shows substantially the same spectrum. 26. By the addition of two further drops
of acetic acid  to the mother liquor, and overnight cooling at −25°, an additional 0.3–0.4 g. (2–3%) of product, m.p. 60–62°, can be isolated. 27. For the melting point determination the capillary is placed in the apparatus at 60°, and the temperature is raid 4°/minute. 28. Recrystallized 1-amino-2-phenylaziridinium acetate  has the following 1H NMR spectrum (CDCl 3), δ (number of protons, assignment): 1.95–2.20 (5H, AB part of ABX and C H 3 at δ 2.02), 2.67–2.95 (1H, X part of ABX), 6.50–6.70 (3H, N H 3) 7.0–7.4 (5H).
3. Discussion
trans -1-Amino-2,3-diphenylaziridine and 1-amino-2-phenylaziridine are reagents for the α,β-
epoxyketone  alkynone fragmentation,3 an example of which is given in this volume.4 An alternative preparation of 1-amino-2-phenylaziridine is the hydrazinolysis of 2-phenyl-1-phthalimidoaziridine.3
新德里英文The lead tetraäcetate reaction between N-aminophthalimide and (E)-stilbene was first described by Rees,5 and the hydrazinolysis of the addition product by Carpino.6 The procedures described here incorporate their methods, with improvements. The dimesylate–hydrazine reaction was first described by Pauln7 in the carbohydrate ries.
This preparation is referenced from:
z Org. Syn. Coll. Vol. 6, 679
References and Notes
松鼠的英文1.Laboratorium für Organische Chemie, Eidgenössische Technische Hochschule, CH-8006 Zürich,
Switzerland.
2.H. D. K. Drew and H. H. Hatt, J. Chem. Soc., 16 (1937).
3.  D. Felix, R. K. Müller, U. Horn, R. Joos, J. Schreiber, and A. Eschenmor, Helv. Chim. Acta,
kill switch55, 1276 (1972).
4.  D. Felix, C. Wintner, and A. Eschenmor, Org. Synth., Coll. Vol. 6, 679 (1988).
grossman5.  D. J. Anderson, T. L. Gilchrist, D. C. Horwell, and C. W. Rees, J. Chem. Soc. C, 576 (1970).
6.L. A. Carpino and R. K. Kirkley, J. Am. Chem. Soc., 92, 1784 (1970).比尔盖茨 乔布斯
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7.H. Pauln and D. Stoye, Angew. Chem., 80, 120 (1968) [Angew. Chem. Int. Ed. Engl., 7, 134
melissa
(1968)]; Chem. Ber., 102, 820 (1969).
Appendix
Chemical Abstracts Nomenclature (Collective Index Number);
(Registry Number)
silica gel
ethanol (64-17-5)
potassium carbonate (584-08-7)
hydrochloric acid (7647-01-0)
中英翻译acetic acid (64-19-7)
ether,
diethyl ether (60-29-7)
nitrogen (7727-37-9)
unluckypyridine (110-86-1)
potassium hydroxide (1310-58-3)
Phthalimide(85-41-6)

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