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Organic I Prof. Dr. Abdellatif M. Salaheldin Chemistry Department. Chapter 5 Alcohols, Phenols, Ethers, Aldehydes, Ketones and Thiols. Alcohols. In an alcohol, a hydroxyl group ( —OH) is attached to a carbon chain. In a phenol, a hydroxyl group ( —OH) is attached to a benzene ring.
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Organic I Prof. Dr. Abdellatif M. SalaheldinChemistry Department
Chapter 5 Alcohols, Phenols, Ethers, Aldehydes, Ketones and Thiols
Alcohols • In an alcohol, a hydroxyl group (—OH) is attached to a carbon chain. • In a phenol, a hydroxyl group (—OH) is attached to a benzene ring.
Classification of Alcohols • Alcohols are classified as primary, secondary, or tertiary. • Classification is determined by the number of alkyl groups attached to the carbon bonded to the hydroxyl.Primary (1º) Secondary (2º) Tertiary (3º)1 group 2 groups 3 groupsH CH3CH3| | | CH3—C—OH CH3—C—OH CH3—C—OH| | | H H CH3
Naming Alcohols • The IUPAC system replaces the -e in the name of the alkane main chain with –ol. • Common names for simple alcohols use the alkyl name followed by alcohol. CH4 methane CH3OH methanol (methyl alcohol) CH3CH3ethane CH3CH2OH ethanol (ethyl alcohol)
Naming Alcohols • In the IUPAC names for longer chains, the chain is numbered from the end nearest the -OH group.CH3—CH2—CH2—OH 1-propanolOH|CH3—CH—CH2—CH32-butanolCH3 OH| |CH3—CH—CH2—CH—CH34-methyl-2-pentanol
Some Typical Alcohols OH | “rubbing alcohol” CH3—CH—CH3 2-propanol (isopropyl alcohol) antifreeze HO—CH2—CH2—OH 1,2-ethanediol (ethylene glycol) OH | glycerol HO—CH2—CH—CH2—OH 1,2,3-propanetriol
Naming Phenols • A phenol is a benzene ring with a hydroxyl group. • For two substituents, assign C-1 to the carbon attached to the –OH. • Number the ring to give the lowest numbers. • The prefixes o, m, and p are used for common names.
Phenols in Medicine • Many phenols are used as antiseptics and disinfectants.
Derivatives of Phenol • Compounds of phenol are the active ingredients in the essential oils of cloves, vanilla, nutmeg, and mint.
Thiols • Thiols are carbon compounds that contain the –SH group. • In the IUPAC name, thiol is added to the alkane name of the longest carbon chain.
Naming Thiols • In thiols with long carbon chains, the chain is number to locate the -SH group.CH3—CH2—CH2—SH 1-propanethiolSH| CH3—CH—CH3 2-propanethiol
Thiols in Nature Thiols: • Often have strong or disagreeable odors. • Are used to detect gas leaks. • Are found in onions, oysters, and garlic.
Ethers • Ethers contain an -O- between two carbon groups. • Simple ethers are named by listing the alkyl names in alphabetical order followed by ether.CH3—O—CH3 dimethyl etherCH3—O—CH2—CH3 ethyl methyl etherCH3—CH2—O—CH2—CH3 diethyl ether
IUPAC Names for Ethers • In the IUPAC system, the shorter alkyl group and the oxygen are named as an alkoxy group attached to the longer alkane. methoxy propane CH3—O—CH2—CH2—CH3 • Numbering the longer alkane gives 1-methoxypropane.
Boiling Points of Alcohols • Alcohols contain a strongly electronegative O in the OH groups. • Thus, hydrogen bonds form between alcohol molecules. • Hydrogen bonds contribute to higher boiling points for alcohols compared to alkanes and ethers of similar mass.
Boiling Points of Ethers • Ethers have an O atom, but there is no H attached. • Thus, hydrogen bonds cannot form between ether molecules.
Solubility of Alcohols and Ethers in Water • Alcohols and ethers are more soluble in water than alkanes because the oxygen atom can hydrogen bond with water. • Alcohols with 1-4 C atoms are soluble, but alcohols with 5 or more C atoms are not.
Reactions of Alcohols • Alcohols undergo combustion with O2 to produce CO2 and H2O. 2CH3OH + 3O2 2CO2 + 4H2O + Heat • Dehydration removes H- and -OH from adjacent carbon atoms by heating with an acid catalyst. H OH | | H+, heat H—C—C—H H—C=C—H + H2O | | | | H H H H alcohol alkene
Formation of Ethers • Ethers form when dehydration takes place at low temperature. H+ CH3—OH + HO—CH3 CH3—O—CH3 + H2O Two Methanol Dimethyl ether
Oxidation and Reduction • In organic chemistry, oxidation is a loss of hydrogen atoms or a gain of oxygen. • In an oxidation, there is an increase in the number of C-O bonds. • Reduction is a gain of hydrogen or a loss of oxygen. The number of C-O bonds decreases.
Oxidation of Primary Alcohols • In the oxidation [O] of a primary alcohol, one H is lost from the –OH and another H from the carbon bonded to the OH. [O] Primary alcohol Aldehyde OH O |[O]|| CH3—C—H CH3—C—H + H2O | H Ethanol Ethanal (ethyl alcohol) (acetaldehyde)
Oxidation of Secondary Alcohols • The oxidation of a secondary alcohol removes one H from –OH and another H from the carbon bonded to the –OH. [O] Secondary alcohol Ketone OH O | [O]|| CH3—C—CH3 CH3—C—CH3 + H2O | H 2-Propanol Propanone (Isopropyl alcohol) (Dimethylketone; Acetone)
Oxidation of Tertiary Alcohols • Tertiary alcohols are resistant to oxidation. [O] Tertiary alcohols no reaction OH | [O] CH3—C—CH3 no product | CH3 no H on the C-OH to oxidize 2-Methyl-2-propanol
Ethanol CH3CH2OH Ethanol: • Acts as a depressant. • Kills or disables more people than any other drug. • Is metabolized at a rate of 12-15 mg/dl per hour by a social drinker. • Is metabolized at a rate of 30 mg/dl per hour by an alcoholic.
Oxidation of Alcohol in the Body • Enzymes in the liver oxidize ethanol. • The aldehyde produced impairs coordination. • A blood alcohol level over 0.4% can be fatal. O || CH3CH2OH CH3CH 2CO2 + H2OEthyl alcohol acetaldehyde
Breathalyzer test • K2Cr2O7 (potassium dichromate) • This orange colored solution is used in the Breathalyzer test (test for blood alcohol level) • Potassium dichromate changes color when it is reduced by alcohol • K2Cr2O7 oxidizes the alcohol
Breathalyzer reaction orange-red green 8H++Cr2O72-+3C2H5OH→2Cr3++3C2H4O+7H2O dichromate ethyl chromium (III) acetaldehyde ion alcohol ion (from K2Cr2O7)
Production of ethanol from grain by fermentation • Grain seeds are grounded and cooked → mash • Malt (the dried sprouts of barley) or special mold is added → source of the enzyme diastase that catalyzes the conversion of starch to malt sugar, maltose diastase (C6H10O5)2x + H2O → x C12H22O11 starch maltose • Pure yeast culture is added C12H22O11 + H2O → 2 C6H12O6 maltose glucose C6H12O6 → 2 CH3CH2OH + 2 CO2 glucose ethanol carbon dioxide
Preparation of alcohols • Ethanol is made by hydration of ethylene (ethene) in the presence of acid catalyst
Isopropyl • is produced by addition of water to propylene (1-propene)
Methanol • is made commercially from carbon monoxide and hydrogen • CO + 2H2→ CH3OH
Oxidation of Thiols. • Mild oxidizing agens remove two hydrogen atoms from two thiol molecules. • The remaining pieces of thiols combine to form a new molecule, disulfide, with a covalent bond between two sulfur atoms. • R – S – H H – S – R+I2→ RS – SR+2HI • 2 RSH + H2O2 → RS – SR + 2 H2O
Aldehydes and Ketones • The carbonyl group is found in aldehydes and ketones. • In an aldehyde, an H atom is attached to a carbonyl group. • In a ketone, two carbon groups are attached to a carbonyl group.
The Polar Carbonyl Group The carbonyl group (C=O): • Consists of a sigma and pi bond. • Has a partially negative O and a partially positive C. • Has polarity that influences the properties of aldehydes and ketones.
Naming Aldehydes • In the IUPAC names for aldehydes, the -e in the corresponding alkane is replaced by –al. • Common names use a prefix with aldehyde:form (1C), acet (2C), propion (3), and butyr (4C)
Aldehydes in Flavorings • Several naturally occurring aldehydes are used as flavorings for foods and fragrances.
Naming Ketones • In the IUPAC name, the -e in the alkane name is replaced with –one. • In the common name, add the word ketone after naming the alkyl groups attached to the carbonyl group. OO || ||CH3—-C—CH3 CH3—C—CH2—CH3Propanone 2-Butanone(Dimethyl ketone; (Ethyl methyl ketone) Acetone)
Physical Properties • The polar carbonyl group provides dipole-dipole interactions. + -+ - C=O C=O • Without an H on the oxygen atom, aldehydes and ketones cannot form hydrogen bond. • Aldehydes and ketones can form hydrogen bonds with the water molecules.
Comparison of Boiling Points • Aldehydes and ketones have higher boiling points than alkanes and ethers of similar mass, but lower boiling points than alcohols.
Solubility in Water • The electronegative O atom of the carbonyl group of aldehydes and ketones forms hydrogen bonds with water.
Chiral Objects • Chiral compounds have the same number of atoms arranged differently in space. • A chiral carbon atom is bonded to four different groups. • Your hands are chiral. Try to superimpose your thumbs, palms, back of hands, and little fingers.
Mirror Images • The mirror images of chiral compounds cannot be superimposed. • When the H and I atoms are aligned, the Cl and Br atoms are on opposite sides.
Achiral Structures are Superimposable • When the mirror image of an achiral structure is rotated, the structure can be aligned with the initial structure. Thus this mirror image is superimposable.
Fischer Projections A Fischer projection: • Is a 2-dimensional representation of a 3-dimensional molecule. • Places the most oxidized group at the top. • Uses vertical lines in place of dashes for bonds that go back. • Uses horizontal lines in place of wedges for bonds that come forward.