SN1 vs SN2 vs E1 vs E2: How to Finally Tell Them Apart

Mechanisms · Updated July 2026

If organic chemistry has one universal stumbling block, it's this quartet. Substitution and elimination reactions share the same starting materials — an alkyl halide (or similar substrate with a leaving group) plus something nucleophilic or basic — and yet produce different products by four different mechanisms. Exam writers exploit that overlap relentlessly. The good news: predicting the right pathway is not guesswork. It's a short checklist, applied in order.

First, know what each mechanism actually is

SN2: one step, backside attack

The nucleophile attacks the carbon bearing the leaving group at the same moment the leaving group departs. One concerted step, no intermediate. Because the nucleophile must approach from the side opposite the leaving group, the reaction inverts stereochemistry at the reacting carbon (the classic "umbrella flip"). Rate depends on both substrate and nucleophile concentrations — it's bimolecular, hence the "2."

SN1: two steps through a carbocation

The leaving group departs first, generating a carbocation intermediate; the nucleophile then attacks. Because the slow step involves only the substrate, the rate is unimolecular. The flat carbocation can be attacked from either face, so SN1 gives a mixture of stereochemical outcomes, and carbocation stability (tertiary > secondary > primary) controls whether the pathway is viable at all. Watch for rearrangements: carbocations will shift a hydride or methyl group to become more stable.

E2: one step, anti-periplanar elimination

A strong base removes a proton on the carbon adjacent to the leaving group while the leaving group departs, forming a double bond in a single concerted step. Geometry matters: the proton removed and the leaving group generally need to be anti-periplanar, which is why E2 problems love cyclohexane rings and Newman projections. Bulky bases favor the less substituted alkene (Hofmann); smaller bases usually give the more substituted, more stable alkene (Zaitsev).

E1: two steps through the same carbocation

Like SN1, the leaving group departs first to form a carbocation — then a weak base removes an adjacent proton to form the alkene. E1 and SN1 are siblings: same first step, same substrates, same conditions, and they typically compete with each other, giving product mixtures.

The four-question decision framework

When a problem gives you a substrate and a reagent, ask these questions in order.

1. What is the substrate?

2. Is the reagent a strong nucleophile, a strong base, both, or neither?

3. What is the solvent?

Polar protic solvents (water, alcohols) stabilize carbocations and hydrogen-bond nucleophiles, favoring SN1/E1. Polar aprotic solvents (DMSO, DMF, acetone) leave nucleophiles "naked" and reactive, boosting SN2.

4. Is heat applied?

Heat generally favors elimination over substitution, because elimination increases the number of molecules and is entropically rewarded. A secondary substrate with ethoxide at room temperature may substitute; the same pair at reflux leans harder toward the alkene.

The summary table worth memorizing

Quick comparison of SN1, SN2, E1, and E2
FeatureSN2SN1E2E1
Steps1 (concerted)2 (carbocation)1 (concerted)2 (carbocation)
Best substrateMethyl, 1°3°, 2°3°, 2°3°, 2°
ReagentStrong nucleophileWeak nucleophileStrong baseWeak base
SolventPolar aproticPolar proticVariesPolar protic
StereochemistryInversionMixtureAnti-periplanar requiredZaitsev mixture
Rearrangements?NoPossibleNoPossible

Common traps to watch for

Drill this framework against real examples until the questions become reflexive. For a broader system for retaining reactions long-term, see How to Memorize Organic Chemistry Reactions.

How Octet helps

Octet's reaction library covers substitution (SN1, SN2) and elimination (E1, E2) among its 80+ essential reactions, each with a step-by-step mechanism breakdown, reagents and conditions, and stereochemistry and regiochemistry notes. Comparison Mode is built for exactly this chapter: put SN2 next to E2 (or SN1 next to E1) side-by-side and study the differences directly, then drill them in Flashcard Mode and mark each as "know" or "learning." Get Octet free on the App Store.