CAUTION: Owing to the carcinogenic properties of methyl
iodide and the toxicity of benzene all operations should be conducted
with great care and in an efficient fume cupboard.
- Prepare an ether solution of methylmagnesium iodide from 49 g (2 mol) of dry magnesium turnings, 284 g (124.5 ml, 2 moles) of dry methyl iodide and 400 ml of sodium-dried ether; use the apparatus and the procedure described in cognate preparation nonan-l-ol.
- Allow to cool, and slowly add a solution of 116 g (132 ml, 1 mol) of ethyl butanoate (1) in 100 ml of anhydrous ether into the vigorously stirred solution of the Grignard reagent.
- Reflux the mixture on a water bath for 1 hour to complete the reaction.
- Pour the ethereal solution into a mixture of 200 ml of approximately 2 M sulphuric acid and 750 g of crushed ice.
- Separate the upper ethereal layer and extract the aqueous solution with two 150 ml portions of ether.
- Wash the combined ethereal extracts with dilute sodium hydrogen carbonate solution, followed by a little water, then dry with anhydrous potassium carbonate or anhydrous calcium sulphate, distil off the ether on a water bath and distil the residue through a short fractionating column.
- Collect the 2-methylpentan-2-ol at 117-120 °C. A further small quantity of the tertiary alcohol may be obtained by redrying the low-boiling distillate, filtering and redistilling. The yield is 90 g (88%).
Cognate preparations. 2-Methylbutan-2-ol (tertiary alcohol from an ester)
- From ethyl propanoate and methylmagnesium iodide.
- Collect the tertiary alcohol at 100-102 "C.
Triphenylmethanol (tertiary alcohol from an ester)
- Prepare a solution of phenylmagnesium bromide from 14 g (0.57 mol) of magnesium turnings, 90.5 g (60.5 ml, 0.57 mol) of dried redistilled bromobenzene and 250 ml of anhydrous ether.
- Treat this Grignard reagent with a solution of 37.5 g (36 ml, 0.25 mol) of dry ethyl benzoate in 100 ml of sodium-dried benzene (CAUTION) following the procedure described above.
- Decompose the reaction product by pouring it slowly, with constant stirring, into a mixture of 750 g of crushed ice and 25 ml of concentrated sulphuric acid.
- Continue the stirring until all the solid dissolves; it may be necessary to add 25 g of solid ammonium chloride to facilitate the decomposition of the magnesium complex, and also a little more benzene to dissolve all the product.
- When all the solids have passed into solution, separate the benzene layer and wash it successively with 100 ml of water, 100 ml of 5 per cent sodium bicarbonate solution and 100 ml of water.
- Remove the benzene as completely as possible from a 1-litre round-bottomed flask using a rotary evaporator; steam distil the residue in order to separate unchanged bromobenzene and biphenyl (by-product).
- Filter the cold residue in the flask at the pump, wash it with water and dry.
- The resulting crude triphenylmethanol weighs 62 g. Recrystallise it from carbon tetrachloride (4 ml per gram of solid): the first crop of crystals, after drying in air to remove the solvent of crystallisation, weighs 56 g (86%) and melts at 162 °C.
- Treat the mother-liquid with 1 g of decolourising charcoal, concentrate to one-quarter of the original volume and cool in ice: a further 3 g of pure triphenylmethanol is obtained.
3-Ethylpentan-3-ol (tertiary alcohol from diethyl carbonate)
- In a 1-litre three-necked flask, equipped as in Expt 5.39, prepare a solution of ethylmagnesium bromide from 36.5 g (1.50 mol) of magnesium turnings, 163 g (112 ml, 1.50 mol) of ethyl bromide and 600 ml of anhydrous ether.
- Run into the resulting ethereal Grignard reagent a solution of 52 g (53.5 ml, 0.44 mol) of pure diethyl carbonate in 70 ml of anhydrous ether, with rapid stirring, over a period of about 1 hour.
- A vigorous reaction sets in and the ether refluxes continually.
- When the diethyl carbonate has been added, heat the flask on a water bath with stirring for another hour.
- Pour the reaction mixture, with frequent shaking, into a 2-litre round-bottomed flask containing 500 g of crushed ice and a solution of 100 g of ammonium chloride in 200 ml of water.
- Transfer to a separatory funnel, remove the ether layer and extract the aqueous solution with two 175 ml portions of ether.
- Dry the combined ethereal extracts with anhydrous potassium carbonate or with anhydrous calcium sulphate, and remove the ether on a water bath.
- Distil the alcohol through a short fractionating column and collect the fraction boiling at 139142 °C as pure 3-ethylpentan-3-ol.
- A further small quantity may be obtained by drying the low boiling fraction with 2 g of anhydrous potassium carbonate or anhydrous calcium sulphate, filtering and redistilling.
- The total yield is 44 g (86%).
- The following tertiary alcohols may be prepared similarly from the appropriate Grignard reagent and diethyl carbonate in yields of 75-80 per cent; 4- propylheptan-4-ol, b.p. 89-92 °C/20 mmHg; 5-butylnonan-5-ol, b.p. 129131 °C/20 mmHg; 6-pentylundecan-6-ol, b.p. 160-163 °C/19 mmHg.
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