Reaction of phosphorus pentachloride with 2-acetylthiophene and

Jiang-Ling Shi , Ji-Cheng Zhang , Bi-Qin Wang , Ping Hu , Ke-Qing Zhao , and Zhang-Jie Shi. Organic Letters 2016 18 (6), 1238-1241. Abstract | Full Te...
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J. Org. Chem. 1983,48,703-706

703

sample of 39 in a 8020 benzene/pyridine mixture at 155 "C for butenyl bromide, 100 mg of potassium iodide, and 516 mg of 16 h gave 2-phenyl-2-(1,l-dimethyl-2-propenyl)-4-methyl-A3-oxNfl-diisopropylethylamine in 30 mL of dimethylformamide was azolin-5-one (40): NMR (CDC13,90 MHz) 6 3.73 (dd, 1 H, J = heated at 90 "C for 5 h. After the reaction mixture had cooled 16.0, 10.0 Hz), 3.03 (dd, 1 H, J = 16.0, 10.0 Hz). to room temperature, 100 mL of an aqueous ammonium chloride solution was added and the mixture was extracted with ether. The ethereal layer was washed with water, dried over magnesium Acknowledgment. We gratefully acknowledge support sulfate, and concentrated under reduced pressure to give a crude of this work by the National Institutes of Health. yellow oil. The oil was purified by flash chromatography, using an 8% ethyl acetate-hexane mixture as the eluent. The major Registry No. 9, 52755-67-6; 10, 84537-26-8; 11, 79998-98-4; fraction contained 398 mg (82%) of a nearly colorless oil. Dis12,41728-97-6;13,79999-05-6;14,79999-06-7;15,84537-27-9;16, tillation of this material (bp 80 "C (0.04 mm)) gave a colorless oil, which was assigned as 2-phenyl-4-methy1-4-(3-methyl-2-b~- 79998-99-5; 18, 1722-69-6; 19, 84537-28-0; 21, 79402-65-6; 22, 79402-66-7; 23,56434-95-8; 25,46181-30-0; 25 picrate, 56434-99-2; tenyl)-A2-oxazolin-5-one (39) on the basis of the following data: 26,29633-99-6;27,46173-12-0;27 dimer, 84537-36-0; 28,84537-29-1; NMR (CC14,90 MHz) d 1.47 (s, 3 H), 1.63 ( 8 , 6 H), 2.49 (d, 2 H, 29,79402-67-8; 30,79402-68-9; 31,79402-69-0;32,62737-00-2;33, J = 8 Hz), 5.02 (t, 1H, J = 8 Hz),7.3-8.0 (m, 5 H); IR (neat) 3085, 3065,3000,2960,2940,1805,1650,1620,1580,1505,1464,1400, 84537-30-4; 34, 79402-70-3; 35, 57957-24-1; 36, 4855-22-5; 37, 52762-80-8; (&)-38, 84620-27-9; (*)-39, 84537-31-5; (*)-40, 1340,1315,1040,935,910,825,740 cm-'; ms m/e 243 (M'), 215, 199, 174; UV (cyclohexane) 243 nm (t 16800). 84537-32-6; (&)-41, 51127-13-0; 3-methyl-2-phenylazirine, Anal. Calcd for C15H17N02:C, 74.05; H, 7.04; N, 5.76. Found 16205-14-4; N-benzoyl-DL-alanine, 1205-02-3; triphenylcycloC, 74.01; H, 7.08; N, 5.74. propenyl perchlorate, 58003-32-0; diphenylmethylcyclopropenyl Thermal and Photochemical Behavior of 2-Phenyl-4perchlorate, 84537-34-8;allyl bromide, 106-95-6; 1-phenyl-3-bu84537-35-9; ten-1-one, 6249-80-5; 2-allyl-2-phenyl-m-dithiane, methyl-4-(3-methyl-2-butenyl)-A2-oxazolin-5-one (39). A solution containing 181 mg of 39 in 130 mL of benzene was 3-methyl-2-butenyl bromide, 870-63-3; 4-methyl-1-phenyl-3penten-1-one,36597-09-8; benzonitrile, 100-47-0;methyl bromide, irradiated under an argon atmosphere for 5 h with a 450-W 4855-25-8; 74-83-9; 2-methyl-4-ethyl-4-phenyl-A2-oxazolin-5-one, Hanovia lamp equipped with a Corex filter sleeve. Removal of N-(a-ethylbenzylidene)acetamide,79402-71-4; 2-methyl-4the solvent under reduced pressure left 140 mg of 2-phenyl-4benzyl-4-phenyl-A2-oxazolin-5-one, 79402-73-6; N-(a-benzylmethyl-A2-oxazolin-5-one(41). The structure of this material was benzylidene)acetamide, 79402-72-5. verified by comparison with an authentic sample. Heating a

Reaction of Phosphorus Pentachloride with 2-Acetylthiophene and Acetophenone Jacques Kagan,* Sudershan K. Arora, Marius Bryzgis, Som N. Dhawan, Kevin Reid, Shiv P. Singh, and Lucy Tow Department of Chemistry, University of Illinois at Chicago, Chicago, Zllinois 60680

Received June 3, 1982 The treatment of 2-acetylthiophene with PCl,, followed by dehydrochlorination, is known to be a poor method for synthesizing 2-ethynylthiophene (la). Reinvestigation of the reaction showed the major products to be the E and Z isomers of 1,2-dichloro-l-(2-thienyl)ethylene(74, with minor amounts of l,l-dichloro-l-(2-thienyl)ethane (3a),l-chloro-l-(2-thienyl)ethylene(4a),2-(chloroacetyl)thiophene,and 2-(dichloroacety1)thiophene. The treatment of acetophenone with PC15 yielded similar products, and the mechanism of these reactions is discussed. The major product 7a could be converted into la by reaction with magnesium. The yield of 4a was increased when pyridine was also used,when only 1equiv of PC15was added by portions to the ketone, or when catecholphosphorus trichloride was used instead of PC15. The best method for converting 2-acetylthiophene into la goes through the enol phosphonate of 2-(bromoacetyl)thiophene, which is treated with sodium amide.

The treatment of carbonyl compounds with phosphorus pentachloride, followed by double dehydrochlorination of the resulting gem-dichloro derivatives, constitutes a classical svnthesis of acetvlenic Nord and his RCOCH3 + PC15

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RCC1,CH3

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RCeCH I

co-workers applied it t o the synthesis of 2-ethynylthiophene (la) from 2-acetylthiophene (2a)3.4and assumed t o have obtained a mixture of l,l-dichloro-l-(2-thienyl)ethane (3a) and l-chloro-l-(2-thien~l)eth~lene (4a), but no pure products were isolated. Their increase in yield (1) Ben-Efraim, D. A. "The Chemistry of the Carbon-Carbon Triple Bond"; Patai, S., Ed.; Wiley: New York 1978; p 759. (2) Jacobs, T. L. Org. React. 1949,5, 1. ( 3 ) Kestin, H.; Miller, R. E.; Nord, F. F. J . Org. Chem. 1951,16,199. (4) Vaitiekunas, A.; Nord, F. F. J . O g . Chem. 1954, 19, 902.

from 20-22%3 t o 65%4 was attributed t o the dehydrochlorination procedure. Difficulties with this synthesis were noted,5 but a full analysis remained to be performed. In this report, the details of the reaction of PC1, with 2a and with the related acetophenone are describe& as well as improved methods for obtaining la.

Results and Discussion The main products of the reaction of 2a with PC15 were analyzed by NMR and by G L C - spectroscopy ~ ~ ~ ~ and identified as 3a, 4a, 6a, and 7a (Scheme 1). T h e major product was 7a (a mixtureof E and isomers accounting for 51% of the isolated products) rather than the expected 3a and 4% Its formation illustrates one danger associated ( 5 ) Patrick, T. B.; Disher, J. M.; Probst, W. J. J. Org. Chem. 1972,37, 4467.

0022-3263/83/1948-0703$01.50/00 1983 American Chemical Society

704 J. Org. Chem., Vol. 48, No. 5, 1983

Kagan et al.

Scheme I 0 II R-C-CH3

Path a

< e R-CC12-CH3

2

>-



ipath 0 II

3

b

R-C-CH2C1

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f

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