prepare RCOOH from 1o ROH OR RCHO
reaction: oxidation
1o ROH + [O] -> RCOOH + H2O
r&c: K2Cr2O7/KMnO4(aq) H2SO4(aq), HUR
RCHO + [O] -> RCOOH + H2O
r&c: K2Cr2O7/KMnO4(aq) H2SO4(aq), heat
obs: purple KMnO4(aq) turns colourless, orange K2Cr2O7(aq) turns green
prepare RCOOH from alkylbenzene
Oxidation
r&c: KMnO4(aq), H2SO4(aq), heat
obs: purple KMnO4(aq) turns colourless
prepare RCOOH from alkene
STRONG Oxidation
r&c: KMnO4(aq), H2SO4(aq), heat
obs: purple KMnO4(aq) turns colourless
prepare RCOOH from nitrile
acid hydrolysis
r&c: H2SO4(aq), heat
OR
alkaline hydrolysis & acid-base rxn
r&c: NaOH(aq), heat to get RCOO-
THEN HCl/H2SO4(aq) to get RCOOH
RCOOH react with REACTIVE metals
redox
r&c: Na, K, Mg
obs: effervescence of H2, H2 extinguishes lighted splint w/ pop sound
RCOOH react with bases
acid-base reaction
r&c: NaOH/KOH/NH3(aq)
RCOOH react with carbonates
acid-base reaction(RCOOH only FG that reacts w/ CO32-
r&c: Na2CO3/NaHCO3(aq)
obs: effervescence of CO2, CO2 forms white ppt w/ limewater
RCOOH form esters
condensation/ nucleophilic acyl substitution
r&c: alcohol, conc. H2SO4, heat
RCOOH -> loses -OH, ROH -> loses -H
to form O-C=O(ester) and H2O(condensation)
formation of ester favoured by excess ROH & removal of H2O by H2SO4
RCOOH form RCOCl
nucleophilic acyl substitution
r&c: PCl5, rtp(POCl3, HCl) /
PCl3, heat(H3PO3) /
SOCl2, heat(SO2, HCl)
RCOOH -> -OH subbed by -Cl
RCOOH to 1o ROH
reduction
r&c: LiAlH4(aq), dry ether
RCOOH CANNOT BE REDUCED BY NaBH4, methanol/ H2(g), Ni catalyst
methanoic acid & ethanedioic acid oxidation
Oxidation
r&c: KMnO4(aq), H2SO4(aq), heat under reflux
obs: purple () decolourises, effervescence of CO2 forms white ppt w/ limewater
methanoic acid & ethanedioic acid dehydration
Elimination
r&c: conc. H2SO4, heat
methanoic acid -> CO(g) + H2O
ethanedioic acid -> CO2(g) + CO(g) + H2O
identify RCOOH
acid carbonate test(preferred)
acid-base reaction with CO32-
reaction with PCl5, also test +ve with aliphatic ROH
RCOCl hydrolysis
hydrolysis/nucleophilic acyl substitution
r&c: water, rtp
pdt: RCOOH + HCl(aq)(white fumes)
acyl halides MOST susceptible to attack by nucleophiles -> highly electronegative =O and -Cl makes C highly electron-deficient
RCOCl react with ROH, phenols
Condensation/Nucleophilic acyl substitution
r&c: aliphatic ROH, rtppdt: ester + HCl
OR
r&c: phenol in NaOH(aq), rtp
pdt: ester(with benzene ring) + HCl
**REACTION GOES TO COMPLETION(->)
RCOCl react with NH3, amines
condensation/nucleophilic acyl substitution
r&c: NH3/ 1o amine/ 2o amine, rtp
**NH3 cannot be (aq), RCOCl will hydrolyse
+NH3 -> RCONH2(1o amide) + HCl
+RNH2(1o amine) -> 2o amide + HCl
+(R)2NH2 (2o amine)-> 3o amide + HCl
identify RCOCl
test: add AgNO3(aq) to a test tube containing RCOCl.
obs: white ppt of AgCl formed immediately
step 1: (aq) hydrolyses RCOCl -> RCOOH + HCl
step 2: HCl dissociates in (aq) to form Cl-, reacts with Ag+ to form AgCl
prepare esters from RCOOH
condensation/nucleophilic acyl substitution
r&c: conc. H2SO4, heat
**REACTION IS REVERSIBLE AS C is not as partially +ve, -OH is not a strong leaving group
prepare esters from RCOCl
condensation/nucleophilic acyl substitution
r&c: aliphatic ROH, rtp
OR
r&c: phenol in NaOH(aq), rtp
**REACTION GOES TO COMPLETION
hydrolyse esters
acid hydrolysis(+H2O)
r&c: H2SO4(aq), heat
pdt: get back ur RCOOH & ROH
**REACTION IS REVERSIBLE(slow rxn)
alkaline hydrolysis(+OH-) aka saponification
r&c: NaOH/KOH(aq), heat
pdt: get back ur RCOOH -> RCOO- & ROH
**REACTION GOES TO COMPLETION, greater yield upon acidification
reduce esters
reduction
r&c: LiAlH4, dry ether
pdt: RCH2OH + ROH
identify esters
identify ROH produced from hydrolysis(acid/alkaline)
use triiodoform test/ oxidation
what affects ease of hydrolysis of acyl chlorides?
w!!!