| 101st | Top inorganic compounds |
| Mercury(II) chloride | |
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| IUPAC name |
Mercury(II)
chloride
Mercury dichloride |
| Other names | Mercuric chloride Corrosive sublimate |
| Identifiers | |
| CAS number | 7487-94-7  |
| EC number | 231-299-8 |
| UN number | 1624 |
| RTECS number | OV9100000 |
| Properties | |
| Molecular formula | HgCl2 |
| Molar mass | 271.52 g/mol |
| Appearance | white solid |
| Density | 5.43 g/cm3 |
| Melting point |
276 °C, 549 K, 529 °F |
| Boiling point |
304 °C, 577 K, 579 °F |
| Solubility in water | 7.4 g/100 ml (20 °C) |
| Solubility | soluble in alcohol, ether, acetone, ethyl acetate slightly soluble in benzene, CS2 |
| Acidity (pKa) | 3.2 (0.2M solution) |
| Structure | |
| Crystal structure | orthogonal |
| Coordination geometry |
linear |
| Molecular shape | linear |
| Dipole moment | zero |
| Hazards | |
| MSDS | ICSC 0979 |
| EU Index | 080-010-00-X |
| EU classification | Very toxic (T+) Corrosive (C) Dangerous for the environment (N) |
| R-phrases | R28, R34, R48/24/25, R50/53 |
| S-phrases | (S1/2), S36/37/39, S45, S60, S61 |
| NFPA 704 |
0
4
0
|
| Flash point | Non-flammable |
| Related compounds | |
| Other anions | Mercury(II) fluoride Mercury(II) bromide Mercury(II) iodide |
| Other cations | Zinc
chloride Cadmium chloride Mercury(I) chloride |
 (what is this?) (verify)Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) |
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| Infobox references | |
Mercury(II) chloride or mercuric chloride (formerly corrosive sublimate), is the chemical compound with the formula HgCl2. This white crystalline solid is a laboratory reagent. It was formerly used more widely, however it is one of the most toxic forms of mercury because it is more soluble than most other forms in water. It is an ionic compound.
Contents |
Mercuric chloride is not a salt but a linear triatomic molecule, hence its tendency to sublime. In the crystal, each mercury atom is bonded to two close chloride ligands with Hg---Cl distance of 2.38 Å; four more chlorides are more distant at 3.38 Å.[1]
Mercuric chloride is obtained by the action of chlorine on mercury or mercury(I) chloride, by the addition of hydrochloric acid to a hot, concentrated solution of mercury(I) compounds such as the nitrate:
Heating a mixture of solid mercury(II) sulfate and sodium chloride also affords volatile HgCl2, which sublimes and condenses in the form of small rhombic crystals.
Its solubility increases from 6% at 20 °C to 36% in boiling water. In the presence of chloride ions, it dissolves to give the tetrahedral coordination complex [HgCl4]2-.
The main application of mercuric chloride is as a catalyst for the conversion of acetylene to vinyl chloride, the precursor to polyvinylchloride:
For this application, the mercuric chloride is supported on carbon in concentrations of about 5 weight percent. This technology has been eclipsed by the thermal cracking of 1,2-dichloroethane. Other significant applications of mercuric chloride include its use as a depolarizer in batteries and as a reagent in organic synthesis and analytical chemistry (see below).[2] It is being used in plant tissue culture for surface sterilisation of explants such as leaf or stem nodes.
Mercuric chloride is occasionally used to form an amalgam with metals, such as aluminium. Upon treatment with an aqueous solution of mercuric chloride, aluminium strips quickly become covered by a thin layer of the amalgam. Normally, aluminium is protected by a thin layer of oxide making it inert. Once amalgamated, aluminium can undergo a variety of reactions. For example, it will dissolve in water (this can be dangerous, as hydrogen gas and heat are generated). Halocarbons react with amalgamated aluminium in the Barbier reaction. These alkylaluminium compounds are nucleophilic and can be used in a similar fashion to the Grignard reagent. Amalgamated aluminium is also used as a reducing agent in organic synthesis. Zinc is also commonly amalgamated using mercuric chloride.
Mercuric chloride is used to remove dithiane groups attached to a carbonyl in an umpolung reaction. This reaction exploits the high affinity of Hg2+ for anionic sulfur ligands.
Mercury(II) chloride was used as a photographic intensifier to produce positive pictures in the collodion process of the 1800s. When applied to a negative, the mercury(II) chloride whitens and thickens the image, thereby increasing the opacity of the shadows and creating the illusion of a positive image.[3]
For the preservation of anthropological and biological specimens during the late 19th and early 20th centuries, objects were dipped in or were painted with a "mercuric solution". Objects in drawers were protected by scattering crystalline mercuric chloride over them.[4] It finds minor use in tanning, and wood was preserved by kyanizing (soaking in mercuric chloride).[5] Mercuric chloride was one of the three chemicals used for railroad tie wood treatment between 1830 and 1856 in Europe and the United States. Limited railroad ties were treated in the United States until there were concerns over lumber shortages in the 1890s.[6] The process was generally abandoned because mercuric chloride was water soluble and not effective for the long term, as well as poisonous. Furthermore, alternative treatment processes, such as copper sulfate, zinc chloride, and ultimately creosote; were found to be less toxic. Limited kyanizing was used for some railroad ties in the 1890s and early 1900s.[7]
Syphilis was frequently treated with mercuric chloride before the advent of antibiotics. It was inhaled, ingested, injected, and applied topically. Poisoning was so common that its symptoms were confused with those of syphilis.[8]
Mercuric chloride is highly toxic, not only acutely but as a cumulative poison.
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Mercury(II) chloride, also known as mercuric chloride and corrosive sublimate, is a chemical compound. Its chemical formula is HgCl2. It has mercury and chloride ions in it. The mercury is in its +2 oxidation state.
Contents |
It is a white crystalline solid. It is very toxic. It can be made by reacting chlorine with mercury. It is not ionic, like most metal-nonmetal chemical compounds are. For example, it evaporates easily when heated, while ionic compounds like sodium chloride stay solid. It dissolves in water, but much better in hot water than in cold water. It also dissolves in chloride solutions. It is very corrosive and a strong oxidizing agent. It reacts with bases to make mercury(II) oxide.
It can be made by reacting mercury(I) chloride or mercury metal with chlorine. It can also be made by reacting mercury(I) nitrate with hydrochloric acid or by reacting mercury(II) sulfate with sodium chloride.
It is used as a catalyst in making plastics. It is also used to make an amalgam with metals such as aluminum. It was used in the past to preserve various things and as a medicine. It is too toxic to be used as a medicine anymore. It was used in photography.
   | ATSDR - Toxicological Profile: Mercury - ATSDR - Toxicological Profile: Mercury |
| | Hazardous substances data bank: Mercuric chloride - HSDB Search Results - Frameset |
| | Stereographic negatives and landscape photography - The Silver Sunbeam--Contents |
| | Toxicity summary for mercury - RAIS: Mercury (7439-97-6) |
| | Syphilis in history - Page not found |
| | ATSDR - Public Health Statement: Mercury - ATSDR - Public Health Statement: Mercury |
| | ATSDR - Medical Management Guidelines (MMGs) for Mercury (Hg) - ATSDR - MMG: Mercury |
| | NIOSH Pocket Guide to Chemical Hazards - NIOSH Document: Pocket Guide to Chemical Hazards: Mercury compounds [except (organo) alkyls] (as Hg) | CDC/NIOSH |
| | National Pollutant Inventory - Mercury and compounds Fact Sheet - NPI - Mercury and compounds fact sheet |
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