反应 #64710

ord-49023b0fd6f441d9ad6176cf2e5e5e50

反应方程式

CC(=O)CCl
chloroacetone
CC(=O)C(Cl)Cl
1,1-dichloroacetone
O=C(CCl)CCl
1,3-dichloroacetone
O=S(=O)(O)O
sulfuric acid
Oc1ccccc1
Phenol
CC(=O)CCl
chloroacetone
CC(=O)CCl
chloroacetone
CC(=Cc1ccc(O)cc1)c1ccc(O)cc1
4,4'-Dihydroxy-alpha-methylstilbene

反应条件

温度
-10°CELSIUS
详细条件
See reaction.notes.procedure_details.

后处理

  1. 1
    workup.ADDITIONwas added to dropwise to the stirred solution over a thirty minute period so as
  2. 2
    温度to maintain the reaction temperature between -9° and -11° C
  3. 3
    其他After two hours of post reaction between the -9° to -11° C. temperature
  4. 4
    其他The oil solution was separated
  5. 5
    洗涤then washed with a second 500 milliliter portion of iced deionized water
  6. 6
    其他After separation
  7. 7
    workup.ADDITIONthe recovered oil solution was added to a 2 liter beaker along with 250 milliliters of ethanol
  8. 8
    workup.STIRRINGstirred
  9. 9
    其他to provide a solution
  10. 10
    温度heating
  11. 11
    温度As the temperature of the mixture increased
  12. 12
    温度heating
  13. 13
    其他reached 70° C.
  14. 14
    其他a massive precipitation of white crystalline plates
  15. 15
    其他The oil layer was recovered by decantation of the water layer and 250 milliliters of ethanol
  16. 16
    workup.ADDITIONwas added
  17. 17
    workup.ADDITIONDeionized water was again added to the stirred solution
  18. 18
    温度as heating
  19. 19
    其他reached 90° C.
  20. 20
    其他a massive precipitation of white crystalline plates
  21. 21
    workup.STIRRINGAt this time, stirring
  22. 22
    温度both chilled to 5° C.
  23. 23
    过滤The crystalline product was recovered by filtration
  24. 24
    workup.STIRRINGthen stirred
  25. 25
    温度with heating to 90° C
  26. 26
    温度After cooling to 5° C.
  27. 27
    过滤the crystalline product was recovered by filtration
  28. 28
    其他then dried in a vacuum oven at 100° C.

实验过程

Phenol (376.44 grams, 4.0 moles), chloroacetone (205.62 grams, 2.0 moles as chloroacetone) and methylene chloride (300 grams) were added to a reactor and cooled to -10° C. with stirring. The chloroacetone used was a technical grade containing 90% chloroacetone, 2.5% acetone, 6.5% 1,1-dichloroacetone and 1.0% 1,3-dichloroacetone, Concentrated sulfuric acid (196.16 grams, 2.0 mole) was added to dropwise to the stirred solution over a thirty minute period so as to maintain the reaction temperature between -9° and -11° C. After two hours of post reaction between the -9° to -11° C. temperature, the viscous orange oil solution was mixed with 500 milliliters of iced deionized water. The oil solution was separated then washed with a second 500 milliliter portion of iced deionized water. After separation, the recovered oil solution was added to a 2 liter beaker along with 250 milliliters of ethanol and stirred to provide a solution. Deionized water (250 milliliters) was added to the stirred solution and heating commenced. As the temperature of the mixture increased, the stirred mixture began to clear. Each time clearing was observed, sufficient deionized water was added to induce cloudiness, followed by continuation of the mixing and heating. Once the temperature reached 70° C., a massive precipitation of white crystalline plates occurred and was followed by immediate coalesence of the precipitated product to an oil. The oil layer was recovered by decantation of the water layer and 250 milliliters of ethanol was added. Deionized water was again added to the stirred solution as heating commenced, in an amount sufficient to induce cloudiness each time clearing was observed. Once the temperature reached 90° C., a massive precipitation of white crystalline plates again occurred. At this time, stirring was stopped and the crystalline slurry, as well as the decanted water layer were both chilled to 5° C. and held therein for 12 hours. The crystalline product was recovered by filtration, combined with 250 milliliters of deionized water then stirred with heating to 90° C. After cooling to 5° C., the crystalline product was recovered by filtration then dried in a vacuum oven at 100° C. and 5 mm Hg to a constant weight of 226.7 grams. Proton magnetic resonance spectroscopy and infrared spectrophotometric analysis confirmed the product structure.

来源

DOI: 10.6084/m9.figshare.5104873.v1专利: US05414121uspto-grants-1995_05