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DOI: 10.1055/s-0030-1258504
An Efficient Electrochemical Method for the Paired Synthesis of Carbonyl Compounds and Homoallylic Alcohols in a Simple Home-Made Cell
Publication History
Publication Date:
16 July 2010 (online)
Abstract
An efficient electrochemical synthesis of carbonyl compounds and homoallylic alcohols was developed in excellent yields using a simple home-made cell. The catalytic redox behavior of the electrode surface and the reaction mechanism was investigated by cyclic voltammetry (CV).
Key words
electrochemistry - paired synthesis - carbonyl compounds - homoallylic alcohols - home-made cell
- Supporting Information for this article is available online:
- Supporting Information (PDF)
- 1a
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References and Notes
For details see the experimental section in the Supporting Information.
7
Representative
Procedure for 1-Phenylbut-3-en-1-ol and Benzaldehyde
A
divided cell with salt bridge of KNO3 was equipped with a
graphite electrode (dia. 3.0 mm) as anode and a graphite electrode
(dia. 3.0 mm vs. SCE) as cathode (Figure S1 in Supporting
Information). To a solution of KNO3 (5 mL, 0.4 M) in
the anodic compartment, benzyl alcohol (5 mmol) was added. In the
cathodic compartment, a solution of allyl bromide (7.5 mmol) was
added into 0.2 M SnCl2 (5 mL)
and KNO3 (0.4
M). The electrolytes were stirred and electrolyzed at constant potential
of 0.6 V until the alcohols were transformed. The produced aldehyde
was transferred to cathodic chamber by simple phase separation.
Meanwhile, the same benzyl alcohol (5 mmol) was added in anodic chamber.
The electrolytes were stirred and electrolyzed at constant potential
of 0.6 V for 4-5 h. Meanwhile, the electrolytes were also
electrolyzed at a constant current of
20 mA (14 h, 2 F/mol
of current was consumed). Considering the period of reaction, we
chose the potentiostatic method to carry out this reaction instead
of galvanostatic method. Then the allylation product in cathode compartment
was extracted with Et2O (3 × 10
mL), washed with H2O and dried over anhyd Na2SO4,
respectively. The solvents were removed under reduced pressure,
and the residues were purified by flash column chromatography. The
produced aldehyde in the anodic compartment was separated by a phase
separation and was added to the cathodic compartment for the next
cycle.