Chlorosulfuric acid explained

Chlorosulfuric acid (IUPAC name: sulfurochloridic acid) is the inorganic compound with the formula HSO₃Cl. It is also known as chlorosulfonic acid, being the sulfonic acid of chlorine. It is a distillable, colorless liquid which is hygroscopic and a powerful lachrymator. Commercial samples usually are pale brown or straw colored.^[1]

Salts and esters of chlorosulfuric acid are known as chlorosulfates.

Structure and properties

Chlorosulfuric acid is a tetrahedral molecule. The formula is more descriptively written SO₂(OH)Cl, but HSO₃Cl is traditional. It is an intermediate, chemically and conceptually, between sulfuryl chloride (SO₂Cl₂) and sulfuric acid (H₂SO₄).^[2] The compound is rarely obtained pure. Upon standing with excess sulfur trioxide, it decomposes to pyrosulfuryl chlorides:^[3]

2 ClSO₃H + SO₃ → H₂SO₄ + S₂O₅Cl₂

Synthesis

The industrial synthesis entails the reaction of hydrogen chloride with a solution of sulfur trioxide in sulfuric acid:^[3]

HCl + SO₃ → ClSO₃HIt can also be prepared by chlorination of sulfuric acid, written here for pedagogical purposes as HSO₃(OH), vs. the usual format H₂SO₄:

PCl₅ + HSO₃(OH) → HSO₃Cl + POCl₃ + HClThe latter method is more suited for laboratory-scale operations.

Applications

ClSO₂OH is used to prepare alkyl sulfates, which are useful as detergents and as chemical intermediates:

ROH + ClSO₃H → ROSO₃H + HCl

An early synthesis of saccharin begins with the reaction of toluene with ClSO₂OH to give the ortho- and para-toluenesulfonyl chloride derivatives:

CH₃C₆H₅ + 2 ClSO₂OH → CH₃C₆H₄SO₂Cl + H₂SO₄ + HClOxidation of the ortho isomer gives the benzoic acid derivative that then is cyclized with ammonia and neutralized with base to afford saccharin.

Reaction with hydrogen peroxide is used to produce peroxydisulfuric acid ("persulfuric acid") and peroxydisulfates. These are used as oxidizing agents and for initiating free radical polymerization, for example to produce polytetrafluoroethylene (Teflon).

Chlorosulfonic acid has been used as an anti-contrail agent in Ryan Model 147 reconnaissance drones,^[4] and to produce smoke screens.^{[5] [6]}

Safety

ClSO₃H reacts violently with water to yield sulfuric acid and hydrogen chloride, commonly seen as vapors fuming from the liquid:

ClSO₃H + H₂O → H₂SO₄ + HCl

Precautions should be taken, such as proper ventilation associated with HCl.

Related halosulfuric acids

• Fluorosulfonic acid, FSO₂OH, is a related strong acid with a diminished tendency to evolve hydrogen fluoride.
• Bromosulfonic acid, BrSO₂OH, is unstable, decomposing at its melting point of 8 °C to give bromine, sulfur dioxide, and sulfuric acid.
• Iodosulfonic acid is not known to occur.

Notes and References

1. Book: Cremlyn, R. J. . Chlorosulfonic Acid . Royal Society of Chemistry . 2002 . 978-0-85404-498-6.
2. Book: Holleman . A. F. . Wiberg . E. . Inorganic Chemistry . Academic Press . San Diego . 2001 . 549–550 .
3. Encyclopedia: Maas . J. . Baunack . F. . Chlorosulfuric Acid . Ullmann's Encyclopedia of Industrial Chemistry . 2002 . Wiley-VCH . Weinheim . 10.1002/14356007.a07_017 . 3527306730 .
4. Book: Method and apparatus for suppressing contrails . United States Patent and Trademark Office . 1970.
5. The Royal Navy at War . DVD . . London . 2005.
6. Web site: Nazi legacy found in Norwegian trees . 2018-04-11 . . Jonathan . Amos . 2018-04-17.