Reaktion #5631

ord-04e07f48769d45fb9b3405fdf6365184

Reaktionsgleichung

[K+].[OH-]
KOH
Oc1ccc(O)cc1
hydroquinone
BrCCCCBr
1,4-dibromobutane
[K+].[OH-]
KOH
[K+].[OH-]
KOH
Oc1ccc(OCCCCOc2ccc(O)cc2)cc1
1,4-BIS(4-HYDROXYPHENOXY)BUTANE
Ausbeute 46.0%

Lösungsmittel

Reaktionsbedingungen

Detaillierte Bedingungen
See reaction.notes.procedure_details.

Aufarbeitung

  1. 1
    SonstigeA five neck five liter round bottom flask equipped with a mechanical stirrer
  2. 2
    Sonstigetwo condensers, and a dropping funnel is purged with nitrogen
  3. 3
    Temperaturis slowly heated
  4. 4
    Temperaturto reflux under a slow nitrogen
  5. 5
    Sonstigepurge
  6. 6
    Sonstigea white material precipitates
  7. 7
    Temperaturin increasing amounts as the refluxing
  8. 8
    workup.WAITis continued an additional hour
  9. 9
    SonstigeThe reaction mixture is quenched
  10. 10
    Temperaturbefore cooling
  11. 11
    workup.ADDITIONby pouring into 6 liters
  12. 12
    Filtrationbefore filtering under reduced pressure
  13. 13
    Waschenwashing with several portions of boiling water
  14. 14
    Sonstigeto remove hydroquinone
  15. 15
    SonstigeThe white residue is dried in a vacuum oven at 140° C. to a weight of 240 grams
  16. 16
    workup.ADDITIONtreated with decolorizing carbon
  17. 17
    Filtrationfiltered through a filter acid, celite
  18. 18
    Sonstigeto remove particulates and colored impurities
  19. 19
    SonstigeA total of 154 grams of a white produce
  20. 20
    Sonstigeis recovered from a series of filtrates
  21. 21
    Filtrationfiltered
  22. 22
    Temperaturcooled
  23. 23
    Sonstigeto recover 135 grams (46% yield
  24. 24
    SonstigeAnother crystallization from 3 liters

Vorschrift

A five neck five liter round bottom flask equipped with a mechanical stirrer, two condensers, and a dropping funnel is purged with nitrogen then charged under a nitrogen blanket with 1.25 kg (11.36 moles) hydroquinone, 350 grams deionized water, and 231.25 grams (1.07 moles) 1,4-dibromobutane. The reaction mass becomes a stirable slurry as it is slowly heated to reflux under a slow nitrogen purge. A solution of 180 grams (2.7 moles) 85% KOH pellets in 180 grams water is added dropwise under a nitrogen blanket over a two hour period. After about one third of the KOH has been added, the slurry has converted to a tea colored solution; then, after most of the KOH has been added, a white material precipitates in increasing amounts as the refluxing is continued an additional hour. The reaction mixture is quenched before cooling by pouring into 6 liters deionized water. The water slurry is acidified with 30% sulfuric acid and allowed to stand at room temperature overnight before filtering under reduced pressure and washing with several portions of boiling water to remove hydroquinone. The white residue is dried in a vacuum oven at 140° C. to a weight of 240 grams. It is then taken up in 4 liters boiling MEK, treated with decolorizing carbon and filtered through a filter acid, celite, to remove particulates and colored impurities. A total of 154 grams of a white produce is recovered from a series of filtrates. Analysis by gpc shows contamination by higher molecular weight species which are much less soluble in acetone than the desired product; thus, the produce is taken up in boiling acetone, filtered, and cooled to recover 135 grams (46% yield based on the dibromobutane). HPLC analysis showed >90% purity by peak area. Another crystallization from 3 liters boiling acetone yield 116 grams of white "mica-like" crystals (melting point 202° C.-204° C.) with greater than 96% purity by HPLC peak area for use in example 11 and 22. Both 1H and 13C NMR spectra are consistent with the proposed structure.

Quelle

DOI: 10.6084/m9.figshare.5104873.v1Patent: US05244998uspto-grants-1993_09