Quiz 7

Question 1

describe how acyl chlorides react with organocuprates to form ketones

Answer 1

(unicorn rxn #1)
- unlike grignard reagants, only one equivalent of organocuprate reacts with an acyl halide to produce a ketone as the product

Question 2

describe the reaction of aldehydes and ketones with acetylide ions

Answer 2

a very weak acid reacts with a very strong base to produce a strong base and strong nucleophile

• the acetylide anions (like grignard reagants) are also organometallic reagants and thus react the same way with aldehydes, ketones, and carboxylic acid derivatives

Question 3

name the unicorn reactions

Answer 3

unicorn rxn = very very specific to just these solvents
- acyl chlorides react with organocuprates to form ketones
- acyl chloride reduction as the aldehyde

Question 4

what happens when an aldehyde reacts with an organometallic compound

Answer 4

gives a secondary alcohol with a triple bond still present

Question 5

describe the reaction of aldehydes and ketones with a cyanide ion

Answer 5

• the overall reaction here is addition of HCN to the carbonyl to form a cyanohydrin.
• must be generated in solution using NaCN and HCl

Question 6

describe the reaction of cyanohydrins in base, aqueous acid and heat, and with catalytic hydrogenation

Answer 6

Base:
- HO- and H2O (for ex.)
- reversible reaction
- the cyanohydrin reverts back ti the starting carbonyl compound since cyanide ion is also a good leaving group

Aqueous acid and heat:
- HCl and H2O –> AKA H3O+ and heat
- a cyanohydrin hydrolyzes to an alpha-hydroxycarboxylic acid.

Catalytic hydrogenation:
- H2 and Raney nickel
- catalytic hydrogenation reduces the cyanohydrin to a primary amine with an OH group on the neighboring carbon atom

Question 7

describe the two reactions of aldehydes and ketones with a hydride ion

Answer 7

aldehydes:
- reacts with 1. NaBH4 and 2. H3O+ to produce a primary alcohol
- reduction of aldehydes with H- always gives primary alcohols

ketones:
- reacts with 1. NaBH4 and 2. H3O+ to produce a primary alcohol
- reduction of ketones with H- always gives secondary alcohols

Question 8

describe reactions of acyl chlorides with hydride ions

Answer 8

• the acyl chloride is very reactive
• reacts with 1. 2NaBOH4 and 2. H3O+to produce a primary alcohol
• reduction of acyl chlorides with H- usually gives primary alcohols as the intermediate aldehyde also is reduced under the reaction conditions

Question 9

describe how a weak and bulky hydride donor (DIBALH) stops the acyl chloride reduction as the aldehyde

Answer 9

(unicorn rxn #2)
- to stop the reduction of an acyl chloride at the aldehyde stage, you must use H- source that is a weaker nucleophile and sterically very bulky
- an acyl chloride reacts with 1. LiAl[OC(CH3)3]3H, -78 degrees celcius and 2. H2O
- LiAl[OC(CH3)3]3H contains 3 big groups so it can deliver one hydrogen. since only one H is attached, it can’t over reduce
- replacing three of the hydrogens of LiAlH4 with -OC(CH3)3 groups makes it a less reactive reducing agent than NaBH4
- to stop the reduction of an ester at the aldehyde stage, you must use an H- source that is a weaker nucleophile and sterically very bulky

Question 10

describe reactions of esters with hydride ions

Answer 10

• an ester reacts with 1. LiAlH4 and 2. H3O+ –> esters are less reactive than aldehydes and ketones so it needs a strong solvent
• this reaction produces a primary alcohol
• like acyl chlorides, reduction of esters with H- usually gives primary alcohols as the intermediate aldehyde also is reduced under the reaction conditions

Question 11

what does DIBALH do

Answer 11

• take an ester and stop it at the aldehyde, the big group helps it not over reduce
• only has one hydrogen separately attached
• the solvent used to stop the rxn

Question 12

describe reactions of carboxylic acids with hydride ions (reduction)

Answer 12

like acyl chlorides and esters, reduction of carboxylic acids with H- gives primary alcohols as the intermediate aldehyde also is reduced under the rxn conditions

Question 13

describe the different ways that reductions with H2 can happen

Answer 13

an organic compound is reduce when hydrogen is added to it
1. hydrogen can be added as a hydride ion and a proton (H- with two lone pairs)
2. hydrogen can be added as two hydrogen atoms (two H atoms with one electron each)
3. hydrogen can be added as two electrons and two protons (two electrons (dot-) and two H+’s that are all free floating separately)

Question 14

what reactants are used for catalytic hydrogenation to reduce carbon-carbon double and triple bonds

Answer 14

solvents that can be used:
- Pd/C
- Raney nickel
- ramey nickel is a very reactive catalyst and is the preferred metal for reducing carbon-nitrogen triple bonds

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Question 15

describe how aldehydes and ketones form imines with primary amines

Answer 15

an aldehyde or a ketone react with a primary amine and use a trace acid catalyst solvent to produce an imine and H2O
- reactions are reversible
- use Le Chatelier’s principle to remove H2O and drive rxn to the right

Question 16

imines vs. amines

Answer 16

An amine is a functional group in which one or more hydrogen atoms are replaced by an alkyl or aryl group. An imine is a functional group containing a carbon-nitrogen double bond.

Question 17

describe the bonding in an imine

Answer 17

• the pi bond is formed by side-to-side overlap of a p-orbital of carbon with a p-orbital of nitrogen
• the pi bond is perpendicular to the orbitals

Question 18

describe the formation of imine derivatives

Answer 18

in all instances, imine formation replaces C=O with C=NR

Question 19

describe how tetrahedral compounds in imine formation are unstable intermediates

Answer 19

• imine formation is reversible because there are two protonated intermediates in the mechanism that can eliminate a group
• imine formation can be pushed to completion by removing water as it’s formed (use of Le Chatelier’s principle)

Question 20

describe how the pH must be controlled for imine formation

Answer 20

• pKa of ammonium ion is 6 and the maximum reaction with acetone is at pH 4.5
• this difference suggests that for imine formation, the pH should be 1.5 units less than the pKa of the amine nucleophile
• most amines have a pKa of 10.5, so that means the pH of the solution should by 9.0
• there must be enough acid to protonate the oxygen atom of the tetrahedral intermediate so that water can be expelled
• if too much acid is present, however, the amine will be protonated and will not be a nucleophile

Question 21

describe imine hydrolysis

Answer 21

• acid-catalyzed hydrolysis (H3O+) converts the imine back ti the carbonyl compound and the amine
• the amine co-product is protonated in the acidic solution (not a trace amount), so it is no longer nucleophilic and thus cannot react with the carbonyl compound
• more importantly, the hydrolysis reaction is performed with a huge excess of water, so Le Chatelier’s principle favors the carbonyl compound

Question 22

describe the reaction of aldehydes and ketones with secondary amines

Answer 22

• a ring with a double bond to an O and a secondary amine react with the trace acid catalyst solvent to produce an enamine
• use le chatelier’s principle to remove H2O to drive rxn to right

Question 23

what is an enamine

Answer 23

ring with the double bond in the ring attached to the carbon that is attached to N, the N is bonded to R groups

Question 24

enamine vs imine

Answer 24

imine consists of a C=N double bond while enamine consists of a C-N single bond.

Question 25

describe enamine hydrolysis

Answer 25

• acid-catalyzed hydrolysis (H3O+) converts the enamine back to the carbonyl compound and the amine
• the amine co-product is protonated in the acidic solution (not a trace amount), so it is no longer nucleophilic and thus cannot react with the carbonyl compound
• more importantly, the hydrolysis reaction is performed with a huge excess of water, so Le Chatelier’s Principle favors the carbonyl compound

Question 26

describe another way to convert a carbonyl group to a methylene group

Answer 26

(reducing O double bond to just CH-)
- use a Wolff-Kishner reaction
- reagants: NH2NH2 KOH and heat

Question 27

describe the mechanism for the wolff-kishner reduction

Answer 27

• the ketone forms a hydrazone for the imine formation
• hydroxide removes a proton from the weakly acidic NH2 group
• reprotonation occurs at carbon
• another deprotonation, loss of N2, and reprotonation forms the product

Question 28

describe how water reacts with aldehydes and ketones

Answer 28

• forms a hydrate
• most hydrates are not stable and usually revert back to the carbonyl form
• the acid protonates the carbonyl oxygen
• the nucleophiles adds to the carbonyl carbon

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Question 29

is there a difference in Keq values for acetone, acetaldehyde, and formaldehyde?

Answer 29

yes, there is a pretty big difference:
acetone has smallest Keq and formaldehyde has the largest

Question 30

describe how the equilibrium constant depends on the relative stabilities of the reactants and products

Answer 30

the equilibrium constant for reactions involving hydrates and carbonyl compounds is influenced by the relative stabilities of the reactants and products. A more stable product will result in a larger equilibrium constant, favoring the formation of that product, while a more stable reactant will result in a smaller equilibrium constant, favoring the reactant side of the equilibrium.

Question 31

explain the reaction of aldehydes and ketones with alcohols

Answer 31

an aldehyde or ketone is added with an alcohol and an acid catalyst solvent (HCl) to produce a hemiacetal. the reaction can stop here depending on the alcohol and how much of it is used. then it reacts with the same alcohol and HCl to produce an acetal. use le chatelier’s principle to remove H2O to drive rxn to right

Question 32

describe the acid-catalyzed hydrolysis of an acetal

Answer 32

• acid-catalyzed (H3O+) converts the acetal back to the carbonyl compound and the alcohol
• requires water in excess
• similar to imines and enamines, the hydrolysis reaction is performed with a huge excess of water, so Le Chatelier’s Principle favors the regeneration of the carbonyl compound

Question 33

how can cyclic acetals be used as protecting groups

Answer 33

• because acetals are stable under basic reaction conditions, they are often used as “protecting groups” in organic synthesis.
• protecting groups are used to “mask” an otherwise reactive functionality during a reaction. said functionality can then be “unmasked” afterwards
• cyclic acetals are very stable with basic reagents

Question 34

describe the use of protecting groups in synthesis

Answer 34

• LiAlH4 will reduce the ester to an alcohol, but the ketone group will also be reduced.
• the ketone functionality is protected (masked) as a ketal

Question 35

describe synthesizing alkenes via the wittig reaction

Answer 35

witig reagents are often drawn as if there is a formal P=C double bond, but they react with aldehydes and ketones like a carbon nucleophile.
- an ylide has the opposite charges on adjacent atoms with complete octets
- the product is an alkene that is a mixture of the E and Z isomers

Question 36

what is the mechanism for the wittig reaction

Answer 36

• only works with aldehydes and ketones
• strength of the wittig reaction:
  - C=C double bond always goes where the carbonyl was in the starting material
  - can prepare “anti-zaitsev” type products

Question 37

describe the synthetic utility of the wittig reaction

Answer 37

• carbonyl reacts with the wittig reagant and (Ph)3P=CH2 which produces the previous carbonyl (now an alkene) but instead of O double bonded it has the end of the solvent group (ex. the CH2). The other product produced is (Ph)3P=O.
• allows you to prepare exocyclic double bonds
• anti-zaitsev

Question 38

how do you choose the reactants for a wittig reaction

Answer 38

• the ylide should come from the least sterically hindered alkyl halide because of the SN2 reaction that you need to do first with PPh3

Question 39

where are the electrophilic sites for unsaturated aldehydes and ketones

Answer 39

• the have two electrophilic sites
• the double bond is conjugated so the double bond can move via resonance, giving electrophilic sites.

Question 40

describe direct addition to unsaturated aldehydes and ketones

Answer 40

• 1,2-addition to the carbonyl carbon affords an unsaturated (allylic) alcohol as the product

Question 41

describe conjugate addition to unsaturated aldehydes and ketones

Answer 41

• 1,4-addition to the alkene carbon, after tautomerization of the intermediate enol

Question 42

explain thermodynamic control

Answer 42

• with a weakly basic nucleophile, direct addition is reversible, so the reaction is under thermodynamic control
• eventually goes to the most thermodynamically favored position (the beta carbon). the product of the carbonyl is always the most stable

Question 43

what do weak bases form under thermodynamic control

Answer 43

• they form conjugate addition products
• all of the products are reversible and go to the beta carbon

Question 44

describe kinetic control

Answer 44

• reacts at carbonyl carbon, which is a fast and irreversible process
• the product that dorms fastest is the product
• uses a strongly basic nucleophile

Question 45

how does steric hinderance dictate the product(s) under kinetic control

Answer 45

• direct addition if the carbonyl group has no steric hinderance
  - yields an allylic alcohol
• conjugate addition if the carbonyl group is hindered

Question 46

how does nucleophile strength dictate the product(s) under kinetic control

Answer 46

(based on the strength of the solvents)
- direct addition and conjugate addition if the hydride source is weaker (yields a mixture of a direct addition product and a conjugate addition product)
- direct addition if the hydride source is strong (just direct addition product)

Question 47

reaction of unsaturated aldehydes and ketones with organometallic reagents

Answer 47

organocuperates only give conjugate addition products

Question 48

what does a strong hydride do to a carbonyl

Answer 48

• reduces the carbonyl

Question 49

what does a weak hydride do to a carbonyl

Answer 49

• reduces the aldehydes and ketones

Question 50

what is anti-zaitsev

Answer 50

the least stable carbon is where the substituent attacks (E,Z –> where the Z has big groups pm the same side and is least sterically favorable)

Question 51

what is a carbonyl group

Answer 51

C double bonded to O

Question 52

what are acyl groups

Answer 52

C double bonded to O and single bonded to R or Ar and something else

Question 53

what are the two classes of carbonyl compounds

Answer 53

Class #1: aldehydes and ketones –> does not have a group that can be substituted by another group, thus cannot be replaced by a nucleophile.

Class#2: carboxylic acids and derivatives –> carbonyl groups have a group that can be substituted by another carbon (can be replaced by a nucleophile)

Question 54

how to determine which class a carbonyl group belongs to

Answer 54

depends on the bascity of the group attached to the acyl group

Question 55

nomenclature of carboxylic acids

Answer 55

-oic acid
- in systematic nomenclature, the carbonyl carbon is C1 (highest oxidized C). also uses numbers
- in common nomenclature, the carbon next to the carbonyl is the alpha carbon. also uses letters
- if carboxylic acid is attached to a ring, it will be called the ring name followed by carboxylic acid
- ex. cylohexanecarboxylic acid

Question 56

formic acid

Answer 56

HCO2H

Question 57

acetic acid

Answer 57

CH3CO2H

Question 58

propionic acid

Answer 58

CH3CH2CO2H

Question 59

butyric acid

Answer 59

CH3CH2CH2CO2H

Question 60

malonic acid

Answer 60

HO2CCH2CO2H

Question 61

succinic acid

Answer 61

HO2CCH2CH2CO2H

Question 62

acrylic acid

Answer 62

H2C=CHCO2H

Question 63

benzoic acid

Answer 63

benzene attached to CO2H

Question 64

phthalic acid

Answer 64

benzene with CO2H attached in two positions (meta)

Question 65

what is the nomenclature of carboxylate ion salts

Answer 65

when the molecule is the carboxylate anion, drop the -ic acid and add the -ate at the end with the cation listed first

Question 66

what is a nitrile

Answer 66

• different type of carboxylic acid derivative
• no carbonyl (C=O) group
• same oxidation state at carbon as other carboxylic acids
• primary amide loses water to make a triple bond –> they are dehydrated, primary amide

Question 67

what are the characteristics of a carbonyl compound

Answer 67

• for the double bond,
  - trigonal and planar geometry
  - sp2 carbon atom hybridization
  - 120 degree orientation
  - has a leaving group
  - has two pi orbitals above and one sigma bond in the middle (the double bond)

Question 68

is the carbonyl carbon an electrophile?

Answer 68

carbonyl carbon is an electrophile, the polarity of the carbonyl group causes the carbonyl carbon to be an electrophile
- partial positive on carbon makes it reactive with nucleophiles

Question 69

describe carboxylic acid hydrogen-bonding in solution and in solid state

Answer 69

• high bp due to two hydrogen bonds (strong bonds)

Question 70

what is an acetylide ion

Answer 70

C triple bonded to C-R