ORGO 2 REACTIONS

epoxide reduction

1. LiAlH4 2. H2O forms an OH on one side

How to prepare a primary alc

1. Nucleophilic attack on formaldehyde 2. Nucleophilic attack on ethylene oxide 3. Hydrogenation of an aldehyde 4. NaBH₄ (or LiALH₄) reduction of an aldehyde 5. Hydroboration-oxidation of a terminal alkene

3 reactions to add ethers

1. Williamson Ether Synthesis 2. Acid-Catalyzed Alcohol Condensation 3. Acid-Catalyzed Alkoxyation

How to prepare a tertiary alc

1. grignard addition to a ketone 2. hydration of a geminally substituted alkene

How to prepare a secondary alc

1. reduction/hydrogenation of a ketone 2. grignard addition to an aldehyde

2 ways to make epoxides via epoxidation

1. using peroxy acid (RCO₃H) 2. intramolecular SN2 reaction of halohydrins

Alkoxymercuration of alkenes

2 step reaction similar to oxymercuration reduction but used alcohol as the nucleophile instead of H20 reagents: 1.Hg(OAc)₂, alcohol over 2. reducing agent (ex: 1.Hg(OAc)₂, CH3CH2OH over 2.NaBH₄, NaOH) anti sterochem and mark

Base-Catalyzed Ring Opening

A strong nucleophile attacks the side of the ring that is least substituted Reagents: Nucleophile over proton donor (Ex: NaOH over H₂O: makes anti-vicinal diols. Other examples are KCN, NaSPh, NaN₃) anti, anti mark

Friedel-Crafts Acylation

Acylium cation formation adds acyl group to benzene Reagents: Acyl Cl, AlCl₃ over CS? HCl as another product

Nitration of Benzene

Adds NO₂ to benzene Reagents: HNO₃, H₂SO₄ H₂O as another product

Sulfination of Benzene

Adds SO₃ Reagents: SO₃, H₂SO⁴

Bromination of Benzene

Adds a Br to a benzene Reagents: Br₂ and an iron catalyst over heat (Ex: Br₂ FeBr₃, ∆) Gives HBr as another product Can be used w Cl

Alkyl Cl formation

Adds a Cl to an alkyl group Reagents: Alcohol and SOCl₂ (thionyl chloride) SO₂ and HCl are other products

Friedel-Crafts Alkylation

Adds an alkyl group to benzene Reagents: Alkyl w Cl, AlCl₃ HCl as another product

Electrophilic addition of alkene w X2

Adds one X and makes an ether from an alkene Reagents: X₂ + H₂O or OH⁻ carbonation intermediate, X attaches to least substituted side first anti (ether adds to more substitited position)

How do you prepare organolithium

Alkyl halide reacts with 2Li is diethyl ether to replace to halide with Li Will not work if there is water or oxygen

How do you prepare Grignard reagents

Alkyl halide with Mg in diethyl ether or THF adds Mg inbetweeen the alkyl group and halide

Ozonolysis

An alkene splits in the middle and adds oxygens Reagents: O3 over reducing agent (Ex: O₃ over DMS or H₂O or H₂O₂

Acid-Catalyzed Ring Opening

An epoxide reaction in which the epoxide is protonated and a nucleophile forms on the most substituted side Reagents: H⁺, nucleophile (Ex:HCl or H⁺ over R-OH or H₂O) anti, mark

Swern Oxidation

Another method of bringing an alcohol to an aldehyde or ketone 1) DMSO, (COCl₂), DCM, cold 2) Et₃N

How do you make iodomethylzinc iodide

CH₂I₂ + Zn in diethyl ether over Cu forms ICH₂ZnI used in simmons smith rxn

Oxidizing Alcohol's using Cr6+

Can oxidize completly A primary alc can form a carboxillic acid

Clemmensen Reaction

Carbonyl in ketone or aldehyde is reduced to CH₂ Reagents: Zn(Hg) over HCl

Wolff-Kishner Reaction

Carbonyl is ketone or aldehyde is reduced to CH₂ Reagents: H₂NNH₂, KOH over triethylene glycol, ∆ (H₂O may be used sometimes)

Simmons-Smith Reaction

Cycloproponation: starts with alkene and forms cyclopropane Reagents: CH₂I₂ over Zn(Cu) and diethyl ether (can also use ICH₂ZnI) Stereospecific: cis stays cis, trans stays trans

Diels-Alder Reaction

Diene → cyclohexene Reagents: any dienophile with an electron-withdrawing substituent, heat Cyclic exchange of electrons to form a six-membered ring Will form bridgehead cyclohexene if the diene is a cycloalkene

how to add syn vivincal diols

Dihydroxylation of alkene catalyzed by OsO₄ Reagents: (CH₃)₃COOH, OsO₄ (cat.) over t-BuOH, OH⁻

Convert alcohol to ester

Fisher esterfication

How to prepare an alcohol on the least substituted part of an alkene

Hydroboration oxidation Reagents: 1. BH₃ 2. H₂O₂, OH⁻ syn addition, antimark

Two ways to prepare alcohols from ketones or aldehydes

Hydrogenation or reduction by a hydride source

How to prepare an alcohol on the most substituted part of an alkene

H₂SO₄ (or any H⁺) over H₂O

Halohydrin Formation

Makes an alcohol from an alkene Reactants: X₂, H2O (where X₂=I, Br, Cl) Intermediate: halonium ion Regiochemistry: Markovnikov Stereochemistry: anti addition

weak bases

NH₃ , HCO₃⁻, and CO₃²⁻

The addition-elimination mechanism (Sn2Ar)

Negatively charged molecule adds to a good LG on benzene and makes a Meisenheimer complex intermediate, LG leaves to restore aromaticity Reagents: Benzene w a LG, nucleophile (Ex: Benzene w Cl attached, NH₃ makes an aniline)

Using acyl Cl and anhydride in ester formation

OH⁻ attacks carbonyl carbon, H and Cl leave reagents: pyridine

Oxidizing a Primary Alcohol to an Aldehyde

Only oxidizes once Reagents: PCC or PDC over CH₂Cl₂

Ether cleavage

Only reaction ethers undergo; makes an alkyl halide by protonation of ether followed by SN2 Reagents: HX (or any strong acid?)(Ex:HBr)

Reaction of grignards and organolithiums

React with carbonyl to reduce Reagents: organolithium or Grignard with a carbonyl 1. diethyl ether 2.H₃O⁺

Preparation of acyl chlorides

Reacts a carboxillic acid to make acyl chloride Reagents: Carboxillic acid, SOCl₂ Also produces SO₂ and HCl

Hydrogenation of aldehyde or ketone

Reagents: H₂ or D₂ with Pt or Pd in ethanol

Reduction of aldehyde/ketones

Reagents: NaBH₄ or LiAlH₄ in methanol or diethyl ehter sometimes water

reduction of carboxylic acids

Requires LiAlH₄ to form alcohol

Williamson Ether Sythesis

SN2 of 1° or 0° alkyl halides reagents: salt+O+alkylgroup (ex:NaOEt) (alkoxide) 2° or 3° alkyl halides will favor E2

Acid-Catalyzed Alkoxyation

Same mechanism as acid-catalyzed hydration, but uses alcohol as the nucleophile instead of H₂O Reagents: H⁺ over alcohol (ex:H₂SO₄ over CH₃OH) mark, watch for shifts

Acid-catalyzed conversion of alcohols to ethers (not the sym one)

Similar to hydration where you start with an alkene, H+ adds to the least substituted, then alkoxide or alcohol adds to carbocation and H is deprotonated Reagents: Alcohol, H₂SO₄, ∆ creates an ether and H₂O Carbocation intermediate OH on both ends does an intramolecular reaction

Metal acetylide reaction with a carbonyl

Similar to organolithium and grignard reaction with carbonyl Reagents: metal acetylide and carbonyl 1.NH₃ 2. H₃O⁺ (Ex: sodium acetylide with ketone)

converting OH to Cl

SoCl₂, pyridine

how do you form a bromohydrin?

Start with an alkene and use Br₂ and H₂O anti addition and mark alc

Oxidative cleavage of diols

Turns a diol into a ketone + an aldehyde Reagents: Diol and perioidc acid (HIO₄)

Friedel-Crafts acylation using anhydrides

Two carboxylic acids react to make acetic anhydride which will add an acyl group to benzene Reagents: To form acetic anhydride: 2 carboxylic acids (acetic acid?) To form acyl benzene: acetic anhydride, benzene, AlCl₃ 1 carboxylic acid as another product

Making an epoxide using peroxy acid

addition reaction that adds oxygen to alkene to form an epoxide + a carboxilyc acid reagents: peroxy acid (RCO₃H) (Ex: MCPBA or MMPP) syn addition

Hydrohalogenation

adds a halogen to an alkene reagents:HX (ex:HBr) watch for shifts, mark

How to add hydrocarbons besides Friedel-Crafts

alkene and H₂SO₄ can make a carbocation which adds to benzene

Gilman reagent reactions

alkene next to a carbonyl will add alkyl group on Beta H

Making an epoxide using SN2

alkene reacts with halohydrin to form an epoxide + X⁻ reagents: 1. X₂ over H₂O 2. Base⁻ anti stereochem

bases for E2 zaitsev

all strong bases 2° carbons: RO⁻, RC triple bond C⁻, NH₂⁻, H⁻, ∆ 3° carbons: same as above + OH⁻

how to make an alkyne

can substitute alkyl halide with sodium acetylide

Sharpless Epoxidation

converts allyl alcohols into enantioselective epoxides depending on the tartrate used reagents: oxidizing agent over Ti catalyst and tartrate (Ex: (CH₃)₃OOH over Ti(OCH(CH₃)₂I₄, (-)-DET positive (S,S) attacks above, negative (R,R) attacks below

Carbonation of Grignard Reagents

grignard reagents can react with dry ice (frozen co2 gas) to create carboxylic acids

How do you prepare a Gilman reagent?

in diethyl ether

how to make an alkyne from a terminal alkene

must 1st start with halide addition reagents: Br₂ double dehydrohalogenation reagents: strong base (ex: NaNH₂, ∆)

hydration reaction on an alkene

need water

disulfide formation

oxidation of thiol can form an intramolecular bond if two thiols on a molecule, use O₂ and FeCl₃ as reagents

Hydrogenation of aldehyde forms

primary alcohol

hydrolysis

reaction of an ion with water to produce the conjugate acid and hydroxide ion or the conjugate base and hydrogen ion

benzylic and allylic bromination

reagents: NBS, ∆, (or Br2 and light) sometime benzyl peroxide replaces an H

decarboxylation

removal of CO₂ 1. compound needs at least two carbonyls 2. one carbonyl needs to be a carboxylic acid 3. need to be seperated by 1 carbon 4. need heat

Hydrogenation of ketone forms

secondary alc (if two CH groups)

bluky bases

t-buO⁻ LDA LiTMP

Acid-Catalyzed Alcohol Condensation

takes two smaller molecules and turns it into one ether reagents:H⁺ and ∆ (ex: H3O⁺ over ∆) only forms symmetrical ethers mech: o protonates and the second molecule attacks and water leaves, second h is taken off

adding na to a terminal alkyne

use NaNH₂ over NH₃ usually used for grignard

how do you make OH a really good leaving group

use PBr3

dehydration of an alcohol

use a strong acid (ex: H₂SO₄) makes an alkene

Sulfide reactions

very easily oxidized reagents: NaIO₄, H₂O₂ for partial oxidation, KMnO₄ or H₂O₂ for full oxidation