| Zaitsev's Rule |
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Information AboutZaitsev's Rule |
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Alexander M. Zaitsev was a professor at the University of Kazan (Russia) in the late 1800s. In 1875 he put forth a generalization about the regioselectivity of β elimination reactions from alcohols. He said," The alkene formed in greatest amount is the one that corresponds to removal of the hydrogen from the β-carbon having the fewest hydrogen substituents." Another way to state it is in Elimination Reaction s, the major reaction product is the Alkene with the more highly substituted (more stable) Double Bond . This most-substituted alkene is also the most stable. This principle is similar to Markovnikov's Rule which applies to the reverse process, Addition Reaction s. This rule is correct only when there are no other substituents beside carbon and hydrogen. Once other atoms are added; Electronegativity , Resonance , and other factors no longer make the rule valid. Now this rule is usually stated a different way: Under Thermodynamic conditions β elimination occurs to form the most stable alkene. STERIC HINDRANCE During the elimination reaction, the base that causes the double bond to form has to be sterically unhindered for the reaction to follow Zaitsev. If the base, for example, is (CH3)3CONa, the bulkiness prohibits the base from pulling the leaving group off of the most substituted carbon. Another carbon atom is chosen and the Hofmann Product forms. REFERENCES
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