Chloroauric acid

Chloroauric acid Basic information
Chloroauric acid Preparation Application
Product Name:Chloroauric acid
Synonyms:Gold(III) chloride solution, ~ 30 wt. % in dilute HCl, 99.99%;Auric Chloride Acid;CHLORO AURIC ACID (Gold Chloride);GOLD CHLORIDE ( CHLOROAURIC ACID );GOLD(III) CHLORIDE ACID 4 H2O;Gold chlorhydric acid;Hydrogentetrachloroaurate(III)hydrate(99.9%-Au)(49%Au)(Chloroauricacid);Gold(III) chloride solution in H2O
CAS:16903-35-8
MF:AuCl4H
MW:339.79
EINECS:240-948-4
Product Categories:chemical reaction,pharm,electronic,materials;metal acid halide;Hematology and Histology;Histology Special Stains;AAS;AAS CRMsSpectroscopy;AASSpectroscopy;Application CRMs;Matrix Selection;Nitrate;Spectroscopy;Gold Salts;Metal and Ceramic Science;Salts;Alphabetic;Analytical Standards;GApplication CRMs;ICP CRMsSpectroscopy;ICP-OES/-MS;ICPSpectroscopy;Industrial/Fine Chemicals;Inorganics
Mol File:16903-35-8.mol
Chloroauric acid Structure
Chloroauric acid Chemical Properties
Melting point 30°C
Boiling point 100 °C
density 3.9 g/mL at 25 °C
storage temp. 2-8°C
solubility H2O: soluble
form Liquid
color yellow
Water Solubility Miscible with water, alcohol, ester, ether and ketone.
Sensitive Light Sensitive
Merck 13,4537
Exposure limitsACGIH: Ceiling 2 ppm
OSHA: Ceiling 5 ppm(7 mg/m3)
NIOSH: IDLH 50 ppm; Ceiling 5 ppm(7 mg/m3)
Stability:Stable. Hygroscopic. Light sensitive. Incompatible with strong bases, sulfides, cyanides, carbonates.
InChIKeyFAGGMVVGLLFOQV-UHFFFAOYSA-J
CAS DataBase Reference16903-35-8(CAS DataBase Reference)
EPA Substance Registry SystemAurate(1-), tetrachloro-, hydrogen, (SP-4-1)- (16903-35-8)
Safety Information
Hazard Codes C,Xi
Risk Statements 36/37/38-43-34-36/38-23
Safety Statements 26-36/37/39-45-36/37
RIDADR UN 3260 8/PG 3
WGK Germany 3
RTECS CK6330000
3-8-10
TSCA Yes
HazardClass 8
PackingGroup III
MSDS Information
ProviderLanguage
SigmaAldrich English
Chloroauric acid Usage And Synthesis
Chloroauric acidChloroalic acid is also known as "gold chloride", "gold chloride tetrahydrate". Chemical formula is HAuCl4 • 4H2O. Molecular weight is 411.85. It is a yellow needle crystal. It is toxic and corrosive. It is easily soluble in water, and soluble in ethanol and ether, and slightly soluble in chloroform. Anhydrous chloroauric acid can be crystallized from the ethanol solution. It will decompose under heat condition, and decompose into gold trichloride at 120 ° C. Exposure of it leads to black spots. In alkaline solution, it reacts with KI to precipitate brown gold. In the acidic solution, it generates "cinnamon purple in the case of tin dichloride. Its aqueous solution was purple after dealing with methyl orange, and it turns green after 1 to 3 drops of hydrochloric acid, and then it becomes lavender after gold salt solution. We get gold hydroxide precipitation after adding cold potassium hydroxide solution. It was reduced to gold powder with sulfur dioxide.
PreparationDissolve the pure gold in aqua regia (or hydrochloric acid saturated by chlorine gas). After distillation and crystallization, we get the product.
ApplicationChlorine acid is mainly used for alkaloid determination, electroplating gold, photography, gold powder, porcelain coloring, red glass manufacturing, special ink and treatment of tuberculosis. It can also be used as analytical reagent, such as microanalysis of rubidium (Rb) and cesium (Cs). It is used for semiconductor, electronic connector and local gold-plated of integrated circuit lead frame, also for printing circuit boards.
Chemical Propertiesgolden to yellowish brown crystals or powder
UsesHydrogen tetrachloroaurate(III) acts as a precursor used in the purification of gold by electrolysis. It is also used for the recovery, concentration, purification and analytical determination of gold. It acts as a key starting material for the preparation of gold compounds. It plays an important role as a catalyst in the preparation of 2-arylbenzoxazoles.
UsesThe HCl plus the HNO2 (hydrochloric and nitric acids) are combined to produce agua regia acid, which is the only acid that can dissolve gold.
Purification MethodsIt is obtained as a dark red crystalline mass by dissolving Au in aqua regia and evaporating. When sublimed at 180o, the crystals are ruby red. The anhydrous salt is hygroscopic, soluble in H2O but sparingly soluble in EtOH and Et2O. Aurochloric acid is formed when AuCl3 is dissolved in HCl. [Diemer J Am Chem Soc 35 553 1913, Glemser & Sauer Handbook of Preparative Inorganic Chemistry (Ed. Brauer) Academic Press Vol II p1 056 1965.]
Chloroauric acid Preparation Products And Raw materials
GOLD CHLORIDE SODIUM SALT, DIHYDRATE,SODIUM GOLD CHLORIDE,SODIUM CHLOROAURIC ACID DIHYDRATE Ethyl 2-(Chlorosulfonyl)acetate Ascoric Acid Ammonium tetrachloroaurate Sodium chloroaurate dihydrate Silicon surface sensitizer, Gold chloride 0.5% GOLD CHLORIDE SOLUTION 0,21% AU 1-(2,6-Dichlorophenyl)-2-indolinone Lithium tetrachloroaurate(III) hydrate, Premion, 99.99% (metals basis) GOLD CHLORIDE,TRIHYDRATE ACS (hydro)chloroauric acid GOLD CHLORIDE TETRAHYDRATE CHLOROAURIC ACID YELLOW,GOLD CHLORIDE, BROWN,GOLD CHLORIDE (ACID YELLOW),CHLOROAURIC ACID BROWN,CHLOROAURIC ACID,GOLD CHLORIDE GOLD CHLORIDE ACID(AUCL3) [Tris(2,4-di-tert-butylphenyl)phosphite]gold chloride POTASSIUM GOLD CHLORIDE bis(triethylphosphine)gold chloride GOLD CHLORIDE SOLUTION Tetrachloroauric Acid

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