Home / The SN1, E1, and Alkene Addition 188bet½ð±¦²©¹ÙÍøµÇ¼ All Pass Through A Carbocation Intermediate
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The SN1, E1, and Alkene Addition 188bet½ð±¦²©¹ÙÍøµÇ¼ All Pass Through A Carbocation Intermediate
Last updated: November 29th, 2022 |
The Carbocation Intermediate That Connects The SN1, E1, And Alkene Addition 188bet½ð±¦²©¹ÙÍøµÇ¼
Was going to include this in my last post but it was getting too big.
Note how the SN1, E1, and alkene addition reactions all pass through a carbocation intermediate. Here’s how they’re related.
1. The Carbocation Intermediate From Alkene Addition
Adding strong acid to an alkene gets us to a carbocation (A–>C).
If the counterion to that acid is a decent nucleophile (think Cl-, Br-, or I-) then it will then add to it, giving us the addition product D. Alternatively if we use an acid like H2SO4 (which has a poorly nucleophilic counterion) in the presence of water or another nucleophilic solvent, we can also get addition products.
The pathway A –> C –> D is an example of alkene addition.Â
2. The Carbocation Intermediate From The SN1 Reaction
Alternatively the carbocation can be generated through loss of a leaving group from an alkyl halide (B–> C) . Attack of that carbocation by a nucleophile (e.g. a nucleophilic solvent, again, like H2O or CH3OH) will give us a new product.
The pathway B –> C –> D is what we call the SN1 reaction.Â
3. The Carbocation Intermediate From The E1 Reaction
Finally, if the carbocation is generated through loss of a leaving group from an alkyl halide but there isn’t any reasonably good nucleophile present, elimination may occur to give the alkene. This is particularly favored by heat.
The pathway B –> C –> A is what we call the E1 reaction.Â
So there you have three very important reactions all intersecting through a common intermediate.
[Remember that leaving groups (LG) are just nucleophiles (Nu) acting in reverse. That’s why there aren’t double [equilibrium] arrows going between B, C and D]
4. What About Rearrangements?
One complication that’s left out here is carbocation rearrangements, which can arise when a less stable carbocation (often secondary) can rearrange to a more stable carbocation (often tertiary) through a hydride or alkyl shift. [See post: Rearrangement 188bet½ð±¦²©¹ÙÍøµÇ¼ – Hydride Shifts]
Important to remember that they can occur but I couldn’t think of a way to put them in while keeping the diagram neat and tidy. :- )
Notes
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00 General Chemistry Review
01 Bonding, Structure, and Resonance
- How Do We Know Methane (CH4) Is Tetrahedral?
- Hybrid Orbitals and Hybridization
- How To Determine Hybridization: A Shortcut
- Orbital Hybridization And Bond Strengths
- Sigma bonds come in six varieties: Pi bonds come in one
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- How To Use Electronegativity To Determine Electron Density (and why NOT to trust formal charge)
- Introduction to Resonance
- How To Use Curved Arrows To Interchange Resonance Forms
- Evaluating Resonance Forms (1) - The Rule of Least Charges
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- Evaluating Resonance Structures With Negative Charges
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02 Acid Base 188bet½ð±¦²©¹ÙÍøµÇ¼
- Introduction to Acid-Base 188bet½ð±¦²©¹ÙÍøµÇ¼
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- Acid Base Practice Problems
03 Alkanes and Nomenclature
- Meet the (Most Important) Functional Groups
- Condensed Formulas: Deciphering What the Brackets Mean
- Hidden Hydrogens, Hidden Lone Pairs, Hidden Counterions
- Don't Be Futyl, Learn The Butyls
- Primary, Secondary, Tertiary, Quaternary In Organic Chemistry
- Branching, and Its Affect On Melting and Boiling Points
- The Many, Many Ways of Drawing Butane
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04 Conformations and Cycloalkanes
- Staggered vs Eclipsed Conformations of Ethane
- Conformational Isomers of Propane
- Newman Projection of Butane (and Gauche Conformation)
- Introduction to Cycloalkanes
- Geometric Isomers In Small Rings: Cis And Trans Cycloalkanes
- Calculation of Ring Strain In Cycloalkanes
- Cycloalkanes - Ring Strain In Cyclopropane And Cyclobutane
- Cyclohexane Conformations
- Cyclohexane Chair Conformation: An Aerial Tour
- How To Draw The Cyclohexane Chair Conformation
- The Cyclohexane Chair Flip
- The Cyclohexane Chair Flip - Energy Diagram
- Substituted Cyclohexanes - Axial vs Equatorial
- Ranking The Bulkiness Of Substituents On Cyclohexanes: "A-Values"
- Cyclohexane Chair Conformation Stability: Which One Is Lower Energy?
- Fused Rings - Cis-Decalin and Trans-Decalin
- Naming Bicyclic Compounds - Fused, Bridged, and Spiro
- Bredt's Rule (And Summary of Cycloalkanes)
- Newman Projection Practice
- Cycloalkanes Practice Problems
05 A Primer On Organic 188bet½ð±¦²©¹ÙÍøµÇ¼
- The Most Important Question To Ask When Learning a New Reaction
- Curved Arrows (for reactions)
- Nucleophiles and Electrophiles
- The Three Classes of Nucleophiles
- Nucleophilicity vs. Basicity
- What Makes A Good Nucleophile?
- What Makes A Good Leaving Group?
- 3 Factors That Stabilize Carbocations
- Equilibrium and Energy Relationships
- 7 Factors that stabilize negative charge in organic chemistry
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- Hammond's Postulate
- Learning Organic Chemistry 188bet½ð±¦²©¹ÙÍøµÇ¼: A Checklist (PDF)
- Introduction to Oxidative Cleavage 188bet½ð±¦²©¹ÙÍøµÇ¼
06 Free Radical 188bet½ð±¦²©¹ÙÍøµÇ¼
- Bond Dissociation Energies = Homolytic Cleavage
- Free Radical 188bet½ð±¦²©¹ÙÍøµÇ¼
- 3 Factors That Stabilize Free Radicals
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07 Stereochemistry and Chirality
- Types of Isomers: Constitutional Isomers, Stereoisomers, Enantiomers, and Diastereomers
- How To Draw The Enantiomer Of A Chiral Molecule
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- Enantiomers vs Diastereomers vs The Same? Two Methods For Solving Problems
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08 Substitution 188bet½ð±¦²©¹ÙÍøµÇ¼
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- Halogenation of Alkenes and Halohydrin Formation
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- m-CPBA (meta-chloroperoxybenzoic acid)
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- Synthesis (4) - Alkene Reaction Map, Including Alkyl Halide 188bet½ð±¦²©¹ÙÍøµÇ¼
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13 Alkyne 188bet½ð±¦²©¹ÙÍøµÇ¼
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- Alkyne 188bet½ð±¦²©¹ÙÍøµÇ¼ - The "Concerted" Pathway
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- Synthesis (5) - 188bet½ð±¦²©¹ÙÍøµÇ¼ of Alkynes
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14 Alcohols, Epoxides and Ethers
- Alcohols - Nomenclature and Properties
- Alcohols Can Act As Acids Or Bases (And Why It Matters)
- Alcohols - Acidity and Basicity
- The Williamson Ether Synthesis
- Ethers From Alkenes, Tertiary Alkyl Halides and Alkoxymercuration
- Alcohols To Ethers via Acid Catalysis
- Cleavage Of Ethers With Acid
- Epoxides - The Outlier Of The Ether Family
- Opening of Epoxides With Acid
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- PBr3 and SOCl2
- Elimination 188bet½ð±¦²©¹ÙÍøµÇ¼ of Alcohols
- Elimination of Alcohols To Alkenes With POCl3
- Alcohol Oxidation: "Strong" and "Weak" Oxidants
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- Thiols And Thioethers
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- Oxidation and Reduction in Organic Chemistry
- Oxidation Ladders
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- Epoxide Reaction Quizzes
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15 Organometallics
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- Formation of Grignard and Organolithium Reagents
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- 188bet½ð±¦²©¹ÙÍøµÇ¼ of Grignard Reagents
- Protecting Groups In Grignard 188bet½ð±¦²©¹ÙÍøµÇ¼
- Synthesis Problems Involving Grignard Reagents
- Grignard 188bet½ð±¦²©¹ÙÍøµÇ¼ And Synthesis (2)
- Organocuprates (Gilman Reagents): How They're Made
- Gilman Reagents (Organocuprates): What They're Used For
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- Reaction Map: 188bet½ð±¦²©¹ÙÍøµÇ¼ of Organometallics
- Grignard Practice Problems
16 Spectroscopy
- Degrees of Unsaturation (or IHD, Index of Hydrogen Deficiency)
- Conjugation And Color (+ How Bleach Works)
- Introduction To UV-Vis Spectroscopy
- UV-Vis Spectroscopy: Absorbance of Carbonyls
- UV-Vis Spectroscopy: Practice Questions
- Bond Vibrations, Infrared Spectroscopy, and the "Ball and Spring" Model
- Infrared Spectroscopy: A Quick Primer On Interpreting Spectra
- IR Spectroscopy: 4 Practice Problems
- 1H NMR: How Many Signals?
- Homotopic, Enantiotopic, Diastereotopic
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- Liquid Gold: Pheromones In Doe Urine
- Natural Product Isolation (1) - Extraction
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17 Dienes and MO Theory
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- 188bet½ð±¦²©¹ÙÍøµÇ¼ of Dienes: 1,2 and 1,4 Addition
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- Why Are Endo vs Exo Products Favored in the Diels-Alder Reaction?
- Diels-Alder Reaction: Kinetic and Thermodynamic Control
- The Retro Diels-Alder Reaction
- The Intramolecular Diels Alder Reaction
- Regiochemistry In The Diels-Alder Reaction
- The Cope and Claisen Rearrangements
- Electrocyclic 188bet½ð±¦²©¹ÙÍøµÇ¼
- Electrocyclic Ring Opening And Closure (2) - Six (or Eight) Pi Electrons
- Diels Alder Practice Problems
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18 Aromaticity
- Introduction To Aromaticity
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- Huckel's Rule: What Does 4n+2 Mean?
- Aromatic, Non-Aromatic, or Antiaromatic? Some Practice Problems
- Antiaromatic Compounds and Antiaromaticity
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19 188bet½ð±¦²©¹ÙÍøµÇ¼ of Aromatic Molecules
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- Nucleophilic Aromatic Substitution (NAS)
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- Aromatic 188bet½ð±¦²©¹ÙÍøµÇ¼ and Synthesis Practice
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20 Aldehydes and Ketones
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- Imines - Properties, Formation, 188bet½ð±¦²©¹ÙÍøµÇ¼, and Mechanisms
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21 Carboxylic Acid Derivatives
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- Lithium Aluminum Hydride (LiAlH4) For Reduction of Carboxylic Acid Derivatives
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- Di-isobutyl Aluminum Hydride (DIBAL) For The Partial Reduction of Esters and Nitriles
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22 Enols and Enolates
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24 Carbohydrates
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- Pyranoses and Furanoses: Ring-Chain Tautomerism In Sugars
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- The Big Damn Post Of Carbohydrate-Related Chemistry Definitions
- The Haworth Projection
- Converting a Fischer Projection To A Haworth (And Vice Versa)
- 188bet½ð±¦²©¹ÙÍøµÇ¼ of Sugars: Glycosylation and Protection
- The Ruff Degradation and Kiliani-Fischer Synthesis
- Isoelectric Points of Amino Acids (and How To Calculate Them)
- Carbohydrates Practice
- Amino Acid Quizzes
25 Fun and Miscellaneous
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- Screw Organic Chemistry, I'm Just Going To Write About Cats
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- On Cats, Part 2: Cat Line Diagrams
- On Cats, Part 4: Enantiocats
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- Common Mistakes with Carbonyls: Carboxylic Acids... Are Acids!
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Thanks for giving such a good explanation 😊😊
Glad you found it helpful.
I appreciate all your posts! They’re extremely helpful! Many thanks!
Thanks Karl!
I just want to say thank you for being able to actually make sense out of all of this. My professor has had me so confused and I actually understand you!!!! Go be a professor seriously, you make sense!