Hydrolysis

Information about Hydrolysis

:Not to be confused with electrolysis

Hydrolysis is a chemical reaction or process in which a chemical compound is broken down by reaction with water.^[1]^[2] This is the type of reaction that is used to break down polymers. Water is added in this reaction.

In organic chemistry, hydrolysis can be considered as the reverse or opposite of condensation, a reaction in which two molecular fragments are joined for each water molecule produced. As hydrolysis may be a reversible reaction, condensation and hydrolysis can take place at the same time, with the position of equilibrium determining the amount of each product.

In inorganic chemistry, the word is often applied to solutions of salts and the reactions by which they are converted to new ionic species or to precipitates (oxides, hydroxides, or salts). The addition of a molecule of water to a chemical compound, without forming any other products is usually known as hydration, rather than hydrolysis.

In biochemistry, hydrolysis is considered the reverse or opposite of dehydration synthesis. In hydrolysis, a water molecule (H2O), is added. Where as in dehydration synthesis, a molecule of water is removed.

Examples

Hydrolysis of metal salts

Many metal ions are strong Lewis acids, and in water they may undergo hydrolysis to form basic salts. Such salts contain a hydroxyl group that is directly bound to the metal ion in place of a water ligand. For example, aluminium chloride undergoes extensive hydrolysis in water, such that the pH of the solution become quite acidic.

Hydrolysis of a hydrated Al³⁺ ion

This means that if solutions of AlCl₃ are evaporated, hydrogen chloride is lost and the residue is a basic salt (in this case an oxychloride) in place of AlCl₃. Such behaviour is also seen with other metal chlorides such as ZnCl₂, SnCl₂, FeCl₃ and lanthanide halides such as DyCl₃. With some compounds such as TiCl₄, the hydrolysis may go to completion and form the pure hydroxide or oxide, in this case TiO₂.

Hydrolysis of an ester link

In a hydrolysis reaction that involves breaking an ester link, one hydrolysis product contains a hydroxyl functional group, while the other contains a carboxylic acid functional group.

The carbonyl is attacked by a hydroxide anion (or a water molecule, which is rapidly deprotonated). The resulting tetrahedral intermediate breaks down. The alkoxide fragment breaks off from the tetrahedran carbon and becomes an alcohol by protonation, leaving the acyl fragment with the attacking hydroxide, to produce a carboxylic acid. This is the reverse of the esterification reaction, yielding the original alcohol and carboxylic acid again. In a basic solution, the carboxylic acid is deprotonated, such that the basic hydrolysis is irreversible, while acidic hydrolysis is not.

There are two main methods for hydrolysing esters, basic hydrolysis and acid-catalysed. With acid-catalysed hydrolysis a dilute acid is used to protonate the carbonyl group in order to activate it towards nucleophilic attack by a water molecule. However the more usual method for ester hydrolysis involves refluxing the ester with an aqueous base such as NaOH or KOH. Once the reaction is complete, the carboxylate salt is acidified to release the free carboxylic acid.

Basic hydrolysis of an ester

An important example of this reaction is the release of fatty acids from glycerol in triglyceride hydrolysis, as occurs during saponification.

Hydrolysis of amide links

In other hydrolysis reactions, such as hydrolysis of an amide link into a carboxylic acid and an amine product or ammonia, only the carboxylic acid product has a hydroxyl group derived from the water. The amine product (or ammonia) gains the remaining hydrogen ion. A more specific case of the hydrolysis of an amide link is hydrolyzing the peptide links of amino acids.

Hydrolysis of cellulose (Cellulolysis)

Main article: Cellulase

Cellulolytic is relating to or causing the hydrolysis of cellulose (i.e. cellulolytic bacteria, fungi or enzymes).

The hydrolysis into glucose (i.e. of cellulose or starch) is called saccharification.

Irreversibility of hydrolysis under physiological conditions

Under physiological conditions (i.e. in dilute aqueous solution), a hydrolytic cleavage reaction, where the concentration of a metabolic precursor is low (on the order of 10^-3 to 10^-6 molar), is essentially thermodynamically irreversible. To give an example:

A + H₂O → X + Y

$\text{[math]}$

Assuming that x is the final concentration of products, and that C is the initial concentration of A, and W = [H₂O] = 55.5 molar, then x can be calculated with the equation:

$\text{[math]}$

let K_d×W = k:

then $\text{[math]}$

For a value of C = 0.001 molar, and k = 1 molar, x/C > 0.999. Less than 0.1% of the original reactant would be present once the reaction is complete.

This theme of physiological irreversibility of hydrolysis is used consistently in metabolic pathways, since many biological processes are driven by the cleavage of anhydrous pyrophosphate bonds.

References

1. ^ Compendium of Chemical Terminology, hydrolysis, accessed 2007-01-23.
2. ^ Compendium of Chemical Terminology, solvolysis, accessed 2007-01-23.

electrolysis is a method of separating chemically bonded elements and compounds by passing an electric current through them.

Overview

Electrolysis involves the passage of an electric current through a typically ionic substance which is either molten or dissolved in an
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chemical reaction is a process that results in the interconversion of chemical substances.^[1] The substance or substances initially involved in a chemical reaction are called reactants.
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Water (H₂O, HOH) is the most abundant molecule on Earth's surface, composing of about 70% of the Earth's surface as liquid and solid state in addition to being found in the atmosphere as a vapor.
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polymer is a substance composed of molecules with large molecular mass composed of repeating structural units, or monomers, connected by covalent chemical bonds. The word is derived from the Greek, πολυ, polu, "many"; and μέρος, meros,
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Organic chemistry is a specific discipline within chemistry which involves the scientific study of the structure, properties, composition, reactions, and preparation (by synthesis or by other means) of chemical compounds consisting primarily of carbon and hydrogen, which may
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A condensation reaction is a chemical reaction in which two molecules or moieties combine to form one single molecule, together with the loss of a small molecule.^[1]
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Inorganic chemistry is the branch of chemistry concerned with the properties and behavior of inorganic compounds. This field covers all chemical compounds except the myriad organic compounds (compounds containing C-H bonds), which are the subjects of organic chemistry.
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In organic chemistry, a hydration reaction is a chemical reaction in which a hydroxyl group (OH^-) and a hydrogen cation (an acidic proton) are added to the two carbon atoms bonded together in the carbon-carbon double bond which makes up an alkene functional group.
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Biochemistry is the study of the chemical processes in living organisms.^[1] The word "biochemistry" comes from the Greek word βιοχημεία biochēmeia, which means "the chemistry of life.
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A Lewis acid (LA) can accept a pair of electrons and form a coordinate covalent bond. The Lewis acid and Lewis base theory, named after the American chemist Gilbert Lewis, is one of several acid-base reaction theories.
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Hydroxyl in chemistry stands for a molecule consisting of an oxygen atom and a hydrogen atom connected by a covalent bond. The neutral form is a hydroxyl radical and the hydroxyl anion is called a hydroxide.
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In chemistry, a ligand is an atom, ion, or molecule (see also: functional group) that generally donates one or more of its electrons through a coordinate covalent bond to, or shares its electrons through a covalent bond with, one or more central atoms or ions (these ligands act as
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Aluminium chloride (AlCl₃) is a compound of aluminium and chlorine. The solid has a low melting and boiling point, and is covalently bonded. It sublimes at 178 °C.
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pH is a measure of the acidity or alkalinity of a solution. Aqueous solutions at 25 ℃ with a pH less than seven are considered acidic, while those with a pH greater than seven are considered basic (alkaline). The pH of 7.
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hydrogen chloride has the formula HCl. At room temperature, it is a colorless gas, which forms white fumes of hydrochloric acid upon contact with atmospheric humidity. Hydrogen chloride gas and hydrochloric acid are important in technology and industry.
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Zinc chloride is the name of chemical compound with the formula ZnCl₂ and its hydrates. Zinc chlorides, of which at nine crystalline forms are known, are colorless or white and highly soluble in water. ZnCl₂ itself is hygroscopic and even deliquescent.
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Tin(II) chloride (stannous chloride) is a white crystalline solid with the formula SnCl₂. It forms a stable dihydrate, but aqueous solutions tend to undergo hydrolysis, particularly if hot.
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Iron(III) chloride, generically called ferric chloride, is an industrial scale commodity chemical compound, with the formula FeCl₃. The colour of iron(III) chloride crystals depends on the viewing angle: by reflected light the crystals appear dark green, but by
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Dysprosium(III) chloride (DyCl₃), also known as dysprosium trichloride, is a compound of dysprosium and chlorine. It is a white to yellow solid which rapidly absorbs water on exposure to moist air to form a hexahydrate, DyCl₃.6H₂O.
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Titanium tetrachloride or titanium(IV) chloride is the chemical compound with the formula TiCl₄.

TiCl₄ is an important intermediate in the production of titanium metal and other titanium compounds.
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In chemistry, hydroxide is the most common name for the diatomic anion OH⁻, consisting of oxygen and hydrogen atoms, usually derived from the dissociation of a base. It is one of the simplest diatomic ions known.
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An oxide is a chemical compound containing at least one oxygen atom and other elements. Most of the earth's crust consists of oxides. Oxides result when elements are oxidized by air.
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Titanium dioxide, also known as titanium(IV) oxide or titania, is the naturally occurring oxide of titanium, chemical formula TiO₂. When used as a pigment, it is called titanium white, Pigment White 6, or CI 77891.
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Esters are a class of chemical compounds and functional groups. Esters consist of an inorganic or organic acid in which at least one -OH (hydroxy) group is replaced by an -O-alkyl (alkoxy) group.
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In organic chemistry, functional groups (or moieties) are specific groups of atoms within molecules, that are responsible for the characteristic chemical reactions of those molecules.
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Carboxylic acids are organic acids characterized by the presence of a carboxyl group, which has the formula -C(=O)OH, usually written -COOH or -CO₂H. ^[1] Carboxylic acids are Bronsted acids — they are proton donors.
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tetrahedral molecular geometry a central atom is located at the center with four substituents located at the corners of a tetrahedron. The bond angles are cos^-1(-1/3) ≈ 109.5°.
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