Further explanation
SN1 stands for nucleophilic substitution and "1" means that the rate determining step is a single molecular reaction. This reaction involves a carboxylation agent and generally occurs in the reaction of secondary or tertiary alkyl halides, or in the presence of strong acids, secondary and tertiary alcohols. With primary alkyl halides, alternative SN2 reactions occur. In inorganic chemistry, SN1 is referred to as a dissociative mechanism. This reaction mechanism was first proposed by Christopher Ingold, et al. in 1940
The SN2 reaction is a type of nucleophilic substitution reaction mechanism in organic chemistry. In this mechanism, one of the bonds is broken and the other one is formed simultaneously, in other words, in one reaction stage. Because the two reacting species are involved in a slow step (the rate determining step), this leads to the name nucleophilic (bi-molecular) or SN2 substitution, the other major type of mechanism being SN1.
This type of reaction is very common and therefore has various names, such as "bimolecular nucleophilic substitution", or, among organic chemists, "associative substitution" or "exchange mechanism"
Unlike the SN2 reaction, the SN1 reaction goes through two stages (it does not include protonation or deprotonation). The determining stage of the reaction rate is in the first stage, therefore the reaction rate of the whole reaction is generally the same as the rate of carbocation formation and does not involve the concentration of nucleophiles. Therefore, nucleophilicity is not a factor in the rate of reaction and the overall rate of reaction depends only on the concentration of the reagent.
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Details
Class: college
Subject: biology
Keywords : SN1 reaction, SN2 reaction
