Reactions of Main Group Elements with Halogens (2023)

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This section describes the chemistry of halogens with the main group elements such as the alkali metals, alkaline earth metals, and Groups 13 and 14. The word halogen itself means "salt former" in Greek. Halogens such as chlorine, bromine and iodine have properties that enable them to react with other elements to form important salts such as sodium chloride, also known as table salt.

Properties of Halogens

Elements such as fluorine, chlorine, bromine, iodine, and astatine belong to Group 17, the halogen group. At room temperature fluorine is a yellow gas, chlorine is a pale green gas, bromine is a red liquid, and iodine is a purple solid. Astatine is a radioactive element, and exists in nature only in small amounts. All the halogens exist as diatomic molecules. They have high ionization energies and form the most electronegative group of elements. Their electron configuration, ns²np⁵, allows them to easily react with Group 1 and 2 metals; each halogen tends to pick up one electron, and the Group 1 and Group 2 elements each tend to lose one or two electrons, respectively. Halogens therefore react most vigorously with Group 1 and Group 2 metals of all main group elements.

Reaction with Water

From a standard reduction potential table, it is determined that iodine and bromine cannot oxidize water to oxygen because they have smaller reduction potentials than oxygen. Thus, iodine and bromine do not react with water. However, fluorine and chlorine have larger reduction potentials, and can oxidize water.

Fluorine reacts with water vapor to form oxygen and ozone:

\[2F_2(g) + 2H_2O(g) \rightarrow 4HF(g)+ O_2(g) \]

\[3F_2(g) + 2H_2O(g) \rightarrow 6HF(g) + O_3(g)\]

The reaction of water with chlorine, shown below, proceeds very slowly.

\[Cl_2 + H_2O \rightarrow H^+ + Cl^- + HClO\]

Chlorine and bromine are moderately soluble in water. These solutions form solid hydrates within an ice lattice. These solutions are good oxidizing agents. Chlorine reacts reversibly with water to produce acids as in the following example, in which chloric acid and hydrochloric acid are formed:

\[Cl_2 + H_2O \rightleftharpoons HClO + HCl\]

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Iodine is slightly soluble in water. It has the lowest standard reduction potential of the halogens, and is therefore the least powerful oxidizing agent. Air and other reagents can oxidize acidified solution of iodide ions.

Reaction with Hydrogen

All the halogens react directly with hydrogen, forming covalent bonds and—at sufficient levels of purity—colorless gases at room temperature. Hydrogen reacts with fluorine, chlorine, bromine, and iodine, forming HF, HCl, HBr, and HI, respectively. The bond strength of these molecules decreases down the group: \(HF > HCl > HBr > HI\).

Iodine and hydrogen react non-spontaneously to produce hydrogen iodide:

Group 1: The Alkali Metals

All the alkali metals react vigorously with halogens to produce salts, the most industrially important of which are NaCl and KCl.

\[ 2Na(s) + Cl_2(g) \rightarrow 2NaCl(s)\]

Sodium Chloride is used as a preservative for meat and to melt the ice on the roads (via freezing point depression). KCl is important for plant fertilizers because of the positive impact of potassium on plant growth. These metal halides form white ionic crystalline solids and are all soluble in water except LiF, because of its high lattice enthalpy attributed to strong electrostatic attraction between Li⁺ and F^- ions.

Group 2: The Alkaline Earth Metals

The alkaline earth metals react to form hydrated halides. These halides are ionic except for those involving beryllium (the least metallic of the group). Because alkaline earth metals tend to lose electrons and halogen atoms tend to gain electrons (Table P2), the chemical reaction between these groups is the following:

\[M + X_2 \rightarrow MX_2\]

where

\(M\) represents any metal from Group 2 and
\(X\) represents fluorine, chlorine, bromine or iodine.

Anhydrous calcium chloride has strong affinity for water, absorbing enough to dissolve its own crystal lattice. It can be produced directly from limestone, or as a by-product by Solvay Process.

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Group 13: The Boron Family

All the Group 13 elements react with Halogens to form trihalides.

All halides of boron are Lewis acids
Aluminum halides adopt a dimeric structure

Aluminum Halides

Aluminum Fluoride, \(AlF_3\), is an ionic compound with a high melting point. However, most of the other aluminum halides form molecules with the formula \(Al_2X_6\) (\(X\) represents chlorine, bromine, or iodine). When two \(AlX_3\) units (or, more generally, any two identical units) join together, the resulting molecule is called a dimer. Aluminum halides are very reactive Lewis acids. They accept electrons and form acid-base compound called adducts, as in the following example:

\[AlCl_3 + (C_2H_5)_2O \rightarrow Al(C_2H_5)_2OCl_3\]

In this reaction, \(AlCl_3\) is the Lewis acid and \((C_2H_5)_2O\) is the Lewis base.

Group 14: The Carbon Family

Group 14 elements form halides with general formula MX₄ (CCl₄, SiCl₄, GeCl₄, SnCl₄, PbCl₄), although some elements such as Ge, Sn, Pb can also form dihalides (MX₂). The tetrahalides of carbon, such as CCl₄, cannot be hydrolyzed due to non-availability of vacant valence d-orbitals, but other tetrahalides can be hydrolyzed.

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Silicon Halides

Silicon reacts with halogens to form compounds of the form SiX₄, where X represents any common halogen. At room temperature, SiF₄ is a colorless gas, SiCl₄ is a colorless liquid, SiBr₄ is a colorless liquid, and SiI₄ forms colorless crystals. SiF₄ and SiCl₄ can be completely hydrolyzed, but SiBr₄ can be only partially hydrolyzed.

Metal Halides

Lead and tin are metals in Group 14. Tin occurs as both SnO₂ and SnO₄. SnCl₂ is a good reducing agent and is found in tinstone. SnF₂ was once used as additive to toothpaste but now is replaced by NaF.

Group 16: The Oxygen Family

Oxygen and Sulfur Halides

Sulfur reacts directly with all the halogens except iodine. It spontaneously combines with fluorine to form sulfur hexafluoride, SF₆, a colorless and inert gas. It can also form SF₄ which is a powerful fluorinating agent. Sulfur and chlorine form SCl₂, a red liquid, which is used in the production of the poisonous mustard gas. This reaction is shown below:

3SF₄ + 4BCl₃ → 4BF₃ + 3SCl₂ + 3Cl₂

Oxygen combines with fluoride to form the compounds OF₂ and O₂F₂. The structures of these molecules resemble that of hydrogen peroxide, although they are much more reactive.

Halogen Oxides

Common halogen oxides include \(Cl_2O\), \(ClO_2\), \(Cl_2O_4\), and \(I_2O_5\). Chlorine monoxide, the anhydride of hypochlorous acid, reacts vigorously with water as shown below, giving off chlorine and oxygen as products.

\[Cl_2O + H_2O \rightleftharpoons 2HOCl\]

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Chlorine dioxide and chlorine perchlorate form when sulfuric acid reacts with potassium chlorate. These compounds are similar to the nitrogen compounds \(NO_2\) and \(N_2O_4\). Iodine pentoxide forms iodic anhydride when reacted with water, as shown:

\[I_2O_5 + H_2O \rightarrow 2HIO_3\]

Halogen Oxoacids

Compounds that are made up of both oxygen and hydrogen are considered to be oxygen acids, or oxoacids. Common oxoacids are shown in the table below.

Table: Oxoacids of Halogens

HClO	HBrO	HIO
HClO₂	HBrO₃	HIO₃
HClO₃	HBrO₄	HIO₄
HClO₄

Halogen Oxoanions

The oxoanions of chlorine are following:

Hypochlorite, OCl^-
Chlorite, ClO₂^-
Chlorate, ClO₃^-
Perchlorate, ClO₄^-

All these compounds have common uses. For example, sodium chlorite is used as bleaching agent for textiles. Chlorate is a very good oxidizing agent and is very important in matches and fireworks.

Group 17: Other Halogens (Interhalogens)

Halogens have the ability to form compounds with other halogens (interhalogens). They are represented with the notation XY, in which the X and Y refer to two different halogens. Examples of this type of molecule include IBr and BrCl. They can also form polyatomic molecules such as XY₃, XY₅, XY₇, corresponding to molecules such as IF₃, BrF₅, and IF₇. Most interhalogen compounds such as CIF₃ and BrF₃ are very reactive.

References

Hill, Graham, and John Holman. Chemistry in context. Nelson Thornes, 2000. Print.
Atkins, Peter, and Loretta Jones. Chemical Principles. W. H. Freeman, 2007. Print.
Hessler, John. Essentials of Chemistry. Rev. ed. New York: B.J. Sanborn & Co, 1921.

Questions

Complete the following chemical reaction: \[Mg + Br_2 \rightarrow\]
Which halogens cannot oxidize water to oxygen, and why?
Name four chlorine oxoanions.
Which metal forms a dimer when reacted with halogen?
Complete the following acid reaction: \[HF + H_2O \rightarrow\]
Why is Aluminium Chloride a covalent compound, while Aluminium Chloride is ionic?

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Answers

\[Mg + Br_2 \rightarrow MgBr_2\]
Iodine and bromine cannot oxidize water to oxygen because they have low electrode potential.
Hypochlorite, chlorite, chlorate, perchlorate
Aluminum
\[HF + H_2O \rightarrow H_3O^+ + F^-\]

\(AlCl_3\) is a molecular compound (molecular formula)

Apparent charges Al (+3) and Cl (-1)
Electronegativity of Al is 1.61
Electronegativity of Cl is 3.16
The difference in electronegativities is 1.55
Therefore bonds are covalent

\(AlF_3\) is an ionic compound (formula compound)

Ionic charges Al (+3) and F (-1)
Electronegativity of Al is 1.61
Electronegativity of F is 3.98 (The fluorine atom is the most electronegative of all the elements)
The difference in electronegativities is 2.37
Therefore bonds are Ionic

FAQs

What are the reactions of main group elements with halogens? ›

All the halogens react directly with hydrogen, forming covalent bonds and—at sufficient levels of purity—colorless gases at room temperature. Hydrogen reacts with fluorine, chlorine, bromine, and iodine, forming HF, HCl, HBr, and HI, respectively.

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What is the reaction of Group 2 elements with halogens? ›

All alkaline earth metals react with the halogens to produce the corresponding halides, with oxygen to form the oxide (except for barium, which forms the peroxide), and with the heavier chalcogens to form chalcogenides or polychalcogenide ions.

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What are the reactions of halogens? ›

Reactions with hydrogen

Halogen	Reaction
Fluorine	Explodes in the cold and dark, forming hydrogen fluoride
Chlorine	Explodes with a flame or in sunlight, forming hydrogen chloride
Bromine	Vigorous reaction with burning hydrogen, forming hydrogen bromide
Iodine	Very slow reaction when heated strongly, forming some hydrogen iodide

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What group of elements do the halogens react with most easily? ›

The elements of Group VIIA (new Group 17 - fluorine, chlorine, bromine, iodine, and astatine) are called the halogens (yellow column). The term “halogen” means “salt-former” because these elements will readily react with alkali metal and alkaline earth metals to form halide salts.

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What do all Group 7 elements react with? ›

Sodium and chlorine react vigorously when heated, giving an orange flame and clouds of white sodium chloride. In group 7, the reactivity of the elements decreases down the group.
...
Reactions with metals.

Halogen	Reaction
Fluorine	Cold iron wool burns to produce white iron(III) fluoride

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What is the reaction of halogens with metals? ›

The halogens react with metals to make salts called metal halides. For example, sodium reacts with chlorine to make sodium chloride (common salt). The reaction between sodium and a halogen becomes less vigorous down the group. Fluorine reacts violently with sodium at room temperature.

What do Group 7 halogens have in common? ›

The halogens are the elements found in the second-to-last group of the Periodic Table. They all have seven electrons in their outer shell and since they need only one more to complete their octet they are fairly reactive.

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