2,3-環氧丁烷

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2,3-環氧丁烷
IUPAC名
2,3-Dimethyloxirane
別名 2,3-二甲基環氧乙烷
2-丁烯環氧化物
識別
CAS編號 3266-23-7  checkY
1758-33-4R,S checkY
21490-63-1S,S checkY
1758-32-3R,R checkY
PubChem 18632
92162
30664
6432237
SMILES
 
  • CC1C(O1)C
InChI
 
  • 1S/C4H8O/c1-3-4(2)5-3/h3-4H,1-2H3
InChIKey PQXKWPLDPFFDJP-UHFFFAOYSA-N
UN編號 3271
性質
化學式 C4H8O
摩爾質量 72.11 g·mol−1
外觀 無色液體
密度 0.837 g·cm−3
熔點 −85 °C(188 K)(S,S[1]
−80 °C(193 K)(R,S[1]
沸點 55—56 °C(328—329 K)[2]
56.5 °C(329.6 K)(S,S[1]
60 °C(333 K)(R,S[3]
53.5 °C(326.6 K)(746 torr,R,R[4]
若非註明,所有數據均出自標準狀態(25 ℃,100 kPa)下。

2,3-環氧丁烷(英語:2,3-Epoxybutane)是化學式CH3CH(O)CHCH3環氧化合物,帶有兩個手性碳原子,其中的(2R,3S)-2,3-環氧丁烷為內消旋化合物,因此總共有三種立體異構物,它們都是無色液體。

合成[編輯]

2,3-環氧丁烷可由2-丁烯為原料進行合成,反應會生成中間體鹵代醇英語Halohydrin[5]

CH3CH=CHCH3 + HOCl → CH3CH(OH)CH(Cl)CH3
CH3CH(OH)CH(Cl)CH3 → CH3CH(O)CHCH3 + HCl

2,3-丁二醇在偶氮二甲酸二乙酯三苯基膦的存在下脫水環化,也可以得到2,3-環氧丁烷。[6]

性質[編輯]

2,3-環氧丁烷的三元環不穩定,可以發生開環反應,如氫化生成對應的2,3-丁二醇[7]。它和溴代甲硼烷二甲硫醚反應,可以得到3-溴-2-丁醇。[8]在二甲基氧鎓四氟硼酸鹽催化下,二甲基亞碸可將其氧化為3-羥基-2-丁酮。[9]

它和二氧化碳發生環加成反應,生成2,3-丁二醇-2,3-環碳酸酯,反應所用的催化劑已有較多報道,如氨基酸-碘化鉀[10]金屬有機框架材料[11]等。它和二硫化碳反應,生成2,3-丁二醇-2O,3S-二硫代環碳酸酯。[12]

2,3-環氧丁烷和二氧化碳的環加成反應。
2,3-環氧丁烷和二硫化碳的環加成反應。

2,3-環氧丁烷和五氧化二氮二氯甲烷中反應,得到2,3-丁二醇-2,3-二硝酸酯;[13]四硝基甲烷反應,得到2,3-丁二醇-2-硝酸酯。[14]它和三甲基氰矽烷發生開環反應,得到2-甲基-3-三甲基矽氧基丁腈。[15]它和O-異丙基-O-苯基硒代磷酸反應,得到2-異丙基-4,5-二甲基-1,3,2-氧雜硒雜磷雜環戊烷-2-氧化物。[16]

參考文獻[編輯]

  1. ^ 1.0 1.1 1.2 "PhysProp" data were obtained from Syracuse Research Corporation of Syracuse, New York (US). Retrieved from SciFinder. [2021-07-10].
  2. ^ Cottle, D. L.; Powell, Leo S. The Reaction of 2,3-Epoxybutane with the Grignard Reagent. Journal of the American Chemical Society. 2002, 58 (11): 2267–2272. ISSN 0002-7863. doi:10.1021/ja01302a052. 
  3. ^ Farberov, M. I.; Bondarenko, A. V.; Obukhov, V. M.; Stepanova, I. P.; Srednev, S. S.; Vasil'eva, I. A. Epoxidation of 2-butene by organic hydroperoxides and syntheses based on 2-butene oxide. II. Syntheses based on 2-butene oxide(俄文). Zhurnal Prikladnoi Khimii (Sankt-Peterburg, Russian Federation), 1984. 57 (11): 2581-2584. ISSN: 0044-4618. CODEN: ZPKHAB.
  4. ^ Leroux, P. J.; Lucas, H. J. L(-)-2-Butanol from D(-)-2,3-Butanediol. Journal of the American Chemical Society. 2002, 73 (1): 41–42. ISSN 0002-7863. doi:10.1021/ja01145a015. 
  5. ^ Heinz Gräfje, Wolfgang Körnig, Hans-Martin Weitz, Wolfgang Reiß, Guido Steffan, Herbert Diehl, Horst Bosche, Kurt Schneider and Heinz Kieczka "Butanediols, Butenediol, and Butynediol" in Ullmann's Encyclopedia of Industrial Chemistry, 2000, Wiley-VCH, Weinheim. doi:10.1002/14356007.a04_455
  6. ^ Castro, Bertrand R. Replacement of Alcoholic Hydroxyl Groups by Halogens and Other Nucleophiles via Oxyphosphonium Intermediates: 18. 2005. doi:10.1002/0471264180.or029.01. 
  7. ^ Nugent, William A. Desymmetrization of Meso Epoxides with Halides: A New Catalytic Reaction Based on Mechanistic Insight. Journal of the American Chemical Society. 1998, 120: 7139–7140. doi:10.1021/JA981031L. 
  8. ^ Brown, Herbert C.; Roy, Chandra Deo. Dibromoborane-Dimethyl Sulfide and Monobromoborane-Dimethyl Sulfide as Superior Reagents for the Opening of Oxiranes to Bromohydrins. Molecules Online. 1998, 2 (8): 114–120. ISSN 1433-1373. doi:10.1007/s007830050066. 
  9. ^ Tsuji, Tadakazu. Acid-Catalyzed Oxidation of Oxiranes with Dimethyl Sulfoxide Giving α-Hydroxy Ketones. Bulletin of the Chemical Society of Japan. 1989, 62 (2): 645–647. ISSN 0009-2673. doi:10.1246/bcsj.62.645. 
  10. ^ Yang, Zifeng; Sun, Jian; Cheng, Weiguo; Wang, Jinquan; Li, Qian; Zhang, Suojiang. Biocompatible and recyclable amino acid binary catalyst for efficient chemical fixation of CO2. Catalysis Communications. 2014, 44: 6–9. ISSN 1566-7367. doi:10.1016/j.catcom.2013.07.025. 
  11. ^ Parmar, Bhavesh; Patel, Parth; Pillai, Renjith S.; Kureshy, Rukhsana I.; Khan, Noor-ul H.; Suresh, Eringathodi. Efficient catalytic conversion of terminal/internal epoxides to cyclic carbonates by porous Co(ii) MOF under ambient conditions: structure–property correlation and computational studies. Journal of Materials Chemistry A. 2019, 7 (6): 2884–2894. ISSN 2050-7488. doi:10.1039/C8TA10631B. 
  12. ^ Pielichowski, Jan; Czub, Piotr. Preparation of substituted 1,3-oxothiolane-2-thiones by reacting epoxides with carbon disulfide(波蘭文). 2006. PL 191028 B1.
  13. ^ Golding, P.; W Millar, R; C Paul, N; H Richards (deceased), D. Nitration by oxides of nitrogen, part 1: preparation of nitrate esters by reaction of strained-ring oxygen heterocycles with dinitrogen pentoxide. Tetrahedron Letters. 1988, 29 (22): 2731–2734. ISSN 0040-4039. doi:10.1016/0040-4039(88)85272-9. 
  14. ^ Volkova, Yuliya A.; Ivanova, Olga A.; Budynina, Ekaterina M.; Averina, Elena B.; Kuznetsova, Tamara S.; Zefirov, Nikolai S. Tetranitromethane as an efficient reagent for the conversion of epoxides into β-hydroxy nitrates. Tetrahedron Letters. 2008, 49 (24): 3935–3938. ISSN 0040-4039. doi:10.1016/j.tetlet.2008.04.050. 
  15. ^ Lidy, Werner; Sundermeyer, Wolfgang. Cleavage reactions of trimethylsilyl cyanide with epoxides, carboxylic acid chlorides, chlorocarbonate esters, and sulfenyl chlorides(德文). Tetrahedron Letters, 1973. 9 (17): 1449-1450. ISSN: 0040-4039. CODEN: TELEAY.
  16. ^ Arbuzov, B. A.; Nuretdinova, O. N. Reactions of diaryl thio- and selenophosphoric acids with oxetanes(俄文). Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, 1983. 3. 675-677. ISSN: 0002-3353. CODEN: IASKA6.
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