Chapter 5 Classification of Organic Compounds by Solubility

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Chapter 5
Classification of Organic Compounds by Solubility
‰Deductions based upon interpretation of simple solubility tests
can be extremely useful in organic structure determination.
‰Both solubility and spectrometric analyses often lead to the
same kinds of structural deduction.
‰Solubility involves
ƒ the formation of one layer, if the compounds are miscible, or
ƒ formation of two layers, if the compounds are immiscible.
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‰ The solubility of organic compounds can be divided into two
major categories:
¾ Solubility in which a chemical reaction is the driving force
¾ Solubility in which simple miscibility is the only mechanism
involved, such as dissolving ethyl ether (CH3CH2OCH2CH3) in
carbon tetrachloride (CCl4)
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Solubility Tests for the Identification of Functional Groups
٣
٤
Test the solubility of a substance in
ƒ Water
A substance is said to be
ƒ 5% NaOH
“soluble” if it dissolves to the
ƒ 5% NaHCO3
extent of 3.3 g/100 mL of solvent
ƒ 5% HCl
ƒ Cold concentrated H2SO4
‰
This can provide three kinds of information:
Presence of a functional group.
For instance, because hydrocarbons are insoluble in water,
observing that an unknown is partially soluble in water
indicates that a polar functional group is present.
‰
(i)
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(ii) Solubility in certain solvents often leads to more specific
information about functional group.
i.e., solubility in 5%
NaOH of a waterinsoluble unknown
is a strong indication
of an acidic
functional group.
(iii) Certain deductions about molecular size and composition
may sometimes be made from solubility tests.
Example: in many homologous series of monofunctional
compounds, the members with fewer than about 5 carbon
atoms are water soluble, whereas the higher homologs are
٦insoluble.
¾ Procedure for Determination of Solubility:
ƒ Solid: R.T.
warm for water solubility
cool to R.T.
ƒ Liquids: ~25 mg (0.05 ml – one drop) in 0.75 mL (15 drops)
ƒ Testing with litmus paper
‰ Heat should not be applied for ether solubility, and also when
solubility in acid or alkali is being determined, because it
might cause hydrolysis to occur.
‰ If the mixture is shaken thoroughly, the time required for the
unknown to dissolve should not be more than 1 to 2 min.
ƒ Solubility in Concentrated Acid
9 Place 0.6 mL of conc. H2SO4 in a test tube, and add 0.05 mL
(~1 drop) or 25 mg of the unknown.
9 Unknowns that react with H2SO4 to produce heat and/or color
changes should be classified as soluble even if the sample
does not appear to dissolve.
٧
ƒ The dielectric constant is the
measure of the ability of the
solvent to separate ionic
charges.
ƒ The dielectric constant is
related to the polarity of the
solvent.
ƒ To dissolve ionic compounds,
a high dielectric constant is
required, but it is not the only
characteristic of an effective
ion solvent.
Example: HCN is a very poor
solvent for salts such as NaCl
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ƒ The high dielectric constant
and hydrogen-bonding ability
of water (and other hydroxylic
solvents) which combine to
make it a good solvent for
salts, also make it a poor
solvent for nonpolar
substances.
Like dissolves like
9 Most organic molecules have both a polar and a nonpolar
entity, it can be deduced that solubility would depend on the
balance of the two parts.
9 As the percentage of the hydrocarbon portion increases,
water solubility decreases and ether solubility increases.
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‰ Generally, solubility of a substance is inversely related to its
melting point: high melting point – low solubility.
‰ Among cis-trans isomers, the cis form generally is more
soluble.
١٠
‰ In general, an increase in molecular weight leads to an
increase in intermolecular forces in a solid and decreased
solubility.
١١
Similarly,
glucose vs. starch or cellulose, and amino acids vs. proteins
‰ Compounds having a branched chain is more soluble than
the corresponding straight-chain compound.
9 Branching lowers intermolecular forces and decreases
intermolecular attraction.
‰ The position of the functional group in the carbon chain also
affects solubility.
١٢
Solubility in Water
‰ Water is a poor solvent for hydrocarbons.
‰ Presence of double bonds, triple bonds or aromatic rings
does not affect the polarity greatly – similar to alkanes in
their solubility.
‰ Substituting halogen for a hydrogen decreases the water
solubility.
‰ Salts are extremely polar and are usually water soluble.
‰ Acids and amines are more soluble than nonpolar
compounds (due to H-bonding).
‰ Solubility of amines decreases as the basicity decreases.
‰ Many tertiary amines are more soluble in cold than in hot
water (at lower temperatures, the solubility of the hydrates is
involved).
١٣
Solubility in 5% Hydrochloric Acid Solution
‰ 1o, 2o, and 3o aliphatic amines form polar ionic salts with HCl.
9 Aliphatic amines are readily soluble in 5% HCl.
‰ The presence of conjugated aryl groups decreases the
basicity of the nitrogen atom.
soluble in 5% HCl
insoluble in 5% HCl
insoluble in 5% HCl
‰ Disubstituted amides (RCONR’2) of sufficiently high molecular
weight to be water insoluble are soluble in 5% HCl solution.
١٤
Solubility in 5% NaOH and 5% NaHCO3
١٥
ƒ Ka ≈ 1x10-10
ƒ insoluble in NaHCO3
ƒ soluble in NaOH
soluble in NaHCO3
soluble in NaHCO3
١٦
‰ Aldehydes and ketones are sufficiently acidic to react with
aqueous alkali, but they are too weakly acidic to dissolve to
any measurable extent in 5% NaOH solution.
‰ When two carbonyl groups are attached to the same carbon,
the acidity increases sharply.
‰ Esters with five or six carbon atoms that are almost
completely soluble in water may be hydrolyzed by continued
shaking with 5% NaOH solution. The alkali should not be
heated and the solubility or insolubility should be recorded
after 1-2 minutes.
١٧
Solubility in Organic Solvents
‰ The solubility of organic compounds in organic solvents should
be determined in order to plan for a variety of laboratory
operations.
‰ These include choosing solvents for
9 organic reactions,
9 dissolving substrates for spectral analyses,
9 cleaning glassware,
9 extraction,
9 Thin layer and other chromatography,
9 Crystallization.
١٨
١٩
Solubility in Cold, Concentrated Sulfuric Acid
‰ Cold, concentrated H2SO4 is used with neutral, waterinsoluble compounds containing no elements other than
carbon, hydrogen and oxygen.
‰ If the compound is unsaturated, is readily sulfonated, or
posses a functional group containing oxygen, it will dissolve
in cold, concentrated H2SO4
‰ Alkanes, cycloalkanes, and their halogen derivatives are
insoluble in H2SO4
٢٠
‰ Simple aromatic hydrocarbons, and their halogen derivatives
do not undergo sulfonation and are insoluble in H2SO4
‰ However, the presence of two or more alkyl groups on the
aromatic ring permits the compound to be sulfonated.
٢١
Dissolve readily in H2SO4
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THE END
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