Choosing between SN1 and SN2

Key Questions

• What factors affect SN2 reactions?

  In all reactions, you have to take into account the nucleophile, electrophile, solvent, and physical conditions (temperature, pressure, etc)

  Most of the time, problems are general enough that we can focus mainly on the electrophile and nucleophile (As long as the solvent and conditions don't interfere with the reaction)

  For #SN_2# reactions, we check the nucleophile for its nucleophilicity, basicity, and steric hindrance. If the nucleophile is part of a long molecule, we should also consider potential functional groups that it can interact with

  A good nucleophile has an unstable negative charge, but isnt so basic that it would rather abstract a hydrogen rather than attack the electrophile. It should also be less bulky so that it can approach and interact with the electrophile

  A good electrophile as a net polar positive moment or charge and is not sterically hindered. For tertiary electrophiles, #SN_2# is virtually impossible.

  When it comes to solvents, we would want a nonpolar, aprotic solvent. Nonpolar because we don't want any of the solvent molecules attenuating the nucleophilicity or electrophilicity of the reactants. Aprotic because we want our nucleophile to attack the electrophilic reactant and not a hydrogen

  Joseph · 5 · Dec 10 2014
• What factors determine whether an alkyl halide will undergo an SN1 or an SN2 reaction?

  Answer:

  Stearic hindrance, hyperconjugation, hybridization, nature of solvent used, nature of sustrate(1' 2' or 3') ' stands for degree here

  Explanation:

  1-more stearic hindrance, more chance to give SN1 Rn. vice versa
  2-more hyperconjugation capability of a substrate, more stable will be the carbocation ultimately more chance to give SN1 Rn. vice versa
  3-sp3 hybridization only give SN1 Rn.
  4-polar protic solvents favour the SN1 while polar aprotic solvents favours the SN2 Rn. Since the product of the solvent may interact with carbocation intermediate and result in undesired product.
  5-1' always follow SN2, while 2' may either follow any, 3' strictly follow SN1.

  Huma Khan · 4 · Apr 29 2018

• What factors determine whether an alkyl halide will undergo an SN1 or an SN2 reaction?
• What factors affect SN2 reactions?
• Are SN1 reactions faster in polar solvents?
• How are SN1 and SN2 reactions different?
• How can I determine SN2 or SN1?
• Are SN1 reactions faster than SN2?
• Why do solvents with low dielectric constants favor SN2 reactions?
• Why do polar protic solvents have little effect upon SN2 reactions?
• Does the solvent determine whether an alkyl halide will undergo an SN1 or an SN2 reaction?
• Why do primary alkyl halides generally undergo SN2 mechanisms?
• Why do only compounds that yield tertiary carbocations (or resonance‐stabilized carbocations) undergo SN1?
• Does water favor SN1 or SN2 reactions?
• Consider the reaction of #(CH_3)_3CO^-# with iodomethane. Will the reaction rate increase, decrease, or remain the same if the concentration of iodomethane is increased?
• Which of the following compounds will undergo an Sn2 reaction most readily: # (CH_3)_3C CH_2I# or #(CH_3)_2CHI#?
• What is the difference between a sn1 and sn2 reaction?
• Why are there #"S"_N1# and #"S"_N2# reactions?
• What determines whether a reaction is classified as sn1 or sn2?
• How do you tell #"S"_"N"1# and #"S"_"N"2# reactions apart?
• How do you predict whether a reaction will undergo sn1 or sn2?
• How do you determine if a reaction will be #"S"_N1# or #"S"_N2#?
• What conditions are present to determine whether a reaction will be sn1 or sn2?
• How do sn1 reactions differ from sn2 reactions?
• What is the reason for these compounds to undergo Sn1 or Sn2 or both mechanisms?
• Is an electrophilic aromatic substitution SN1 or SN2?