The Lucas test in
alcohols is a test to differentiate between
primary, secondary, and tertiary alcohols. It is based on the difference in reactivity of the three classes of alcohols with hydrogen
halides via an
SN1 reaction: \text{(CH}_3\text{)}_3\text{COH} + \text{HCl} \rightarrow \text{(CH}_3\text{)}_3\text{CCl} + \text{H}_2\text{O} The differing reactivity reflects the differing ease of formation of the corresponding
carbocations. Tertiary carbocations are far more stable than secondary carbocations, and primary carbocations are the least stable(due to hyperconjugation). An equimolar mixture of ZnCl2 and concentrated
HCl is the reagent. The
alcohol is protonated, the H2O group formed leaves, forming a carbocation, and the nucleophile Cl− (which is present in excess) readily attacks the carbocation, forming the chloroalkane. Tertiary alcohols react immediately with Lucas reagent as evidenced by
turbidity owing to the low solubility of the organic chloride in the aqueous mixture. Secondary alcohols react within five or so minutes (depending on their solubility). Primary alcohols do not react appreciably with Lucas reagent at room temperature. Hence, the time taken for turbidity to appear is a measure of the reactivity of the class of alcohol, and this time difference is used to differentiate among the three classes of alcohols: • no visible reaction at room temperature and forming an oily layer only on heating: primary, such as
1-pentanol • solution forms oily layer in 3–5 minutes: secondary, such as
2-pentanol • solution forms an oily layer immediately: tertiary, such as
2-methyl-2-butanol The Lucas test is usually an alternative to the
oxidation test - which is used to identify primary and secondary alcohols. ==References==