Transcript Alcohols
Alcohols Condensation Reaction CH3 – OH + HO – CH3 H2SO4 CH3 – O – CH3 + H2O two molecules combine to form larger molecule + water alcohol + alcohol ether + H2O Ethers R water alcohol ether H-bond acceptor Ono H-bond donor dipole-dipole interactions low b.p. soluble in polar solvents Ethers Common nomenclature : name both R groups + ether 1 2 1 3 O .. propyl methyl methyl propyl ether methyl dimethyl ether methyl “ether” bunny propyl people ether Ethers Reactions Formation: H2SO4 condensation reaction Peroxide formation: peroxide Aldehydes and Ketones 120o aldehyde C=O ketone carbonyl group C and O are sp2 hybridized polar higher b.p. than alkanes H-bond acceptor soluble in polar solvents no H-bond donor lower b.p. than alcohols Aldehydes and Ketones Nomenclature 1. Longest chain with C=O is parent 2. Suffix is “-al” or “-one” 3. C1 is always C=O in aldehydes In ketones, C=O is given lowest number 4. C=O has precedence over -OH (called “hydroxy”) 4 5 2 3 3 4 2 2-bromo-3-methylbutanal 1 2 3 1 1 3- pentanone trans3-hydroxy-2-methyl cyclobutanone Reactions Reduction [R] = reducing agent LiAlH4 NaBH4 H2/Pt [R] 4 3 1 2 CH3- CH2- CH2- CHO butanal [R] 1 3 4 2 2- butanone CH3- CH2- CH2- CH2-OH ketone aldehyde very polar : C=O :O : :O : - C C+ Nucleophilic addition - + :O : C + + H Nu - O H C Nu H-Nu H-OH H-OR H-NH2 Nucleophilic addition R R .. C=O .. H+ R .. R C =O .. H R H+ R + H-OH R R .. C=O .. + H-OR R R R H R H .. C O H .. .... O ...... H N H H H R C O-H + H+ O-H hydrate or diol R C R O-H + H+ O-R hemi-ketal R RR + H-NH2 R C + H+ O+-HH2O N N -H H2 Schiffs base Addition of alcohol H3H C H3C C O + CH3OH H+ CH3 H H3C C OH ketone + alcohol = hemi- ketal unstable aldehyde + alcohol = hemi- acetal unstable OCH3 6 CH OH 2 5 O OH C1 2 OH 3 HO 4 OH 5 OH 6 CH2OH 4 OH 3 2 OH 1 H OH b.p. = 150o 6 CH OH 2 5 OH 4 OH 1 3 2 OH OH OH b.p. = 146o HO 3 6 CH2OH 4 5 OH 2 1 OH -D-glucose CH2OH OH O OH HO H more stable HO OH OH -D-glucose Nucleophilic substitution H H3C C .. OH .. .. + OH .. - CH3 - CH2 + H H H H .. O - CH - CH H+ 2 3 H3C C .. OH O - CH2 - CH3 H2O O - CH2 - CH3 H hemi - acetal H3C C O - CH2 - CH3 O - CH2 - CH3 aldehyde + alcohol + alcohol acetal condensation reaction hemi-acetal + alcohol acetal + H2O + H+ acetal propanal + 2 equivalents ethanol stable hemi- ketal 2-butanone + 1 equivalent methanol unstable Carboxylic acids 1o alcohol [O] methanol H-bond acceptor H-bond donor aldehyde methanal [O] carboxylic acid methanoic acid - - + very high b.p. 2 H-bonds / molecule Carboxylic acids Nomenclature 1. Carboxyl group (COOH) always C1 2. Family name is longest C chain with COOH 3. Suffix is “-oic acid” 4. Carbonyl groups (C=O) called “oxo” Hydroxy groups (OH) called “hydroxy” Carboxylic acids 4 3 2 1 CH3 – CH2 – CH – C O 2-ethylbutanoic acid OH CH2 – CH3 O OH CH2 – CH3 CH3 – CH2 – CH – CH2 – CH – CO2H 6 5 add [O] 4 3 2 1 2-ethyl 4-hydroxy 2-ethyl- 4-hydroxyhexan oic acid 2-ethyl- 4-oxo hexan oic acid Carboxylic Acids Chemical properties = C=O + OH = Bronsted acid H+ donor HA H + + AH+ + weak acids, small dissociation Ka = [A-] [H+] [HA] Ka 1 x 10-5 pH 2.5 for 1M Carboxylic Acids H+ + H+ + - resonance structure anion stabilized Carboxylic Acids acidity also affects solubility soluble H-bonding short chain acids O long chain acids C OH benzoic acid LDF O add a strong base (OH-) C insoluble OH soluble ion-dipole Reactions Acid-base reactions: O O - + NaOH OH + H2O octanoic acid insoluble O O O O O O- O O- sodium octanoate + water soluble O O O O O O O O O O - O O - O OO O -O O Na+ O Reactions Reduction: LiAlH4 6 5 4 3 2 1 5-oxo hexanoic acid 1,5- hexanediol H2/ Pt NaBH4 5-hydroxyhexanoic acid