Silver acetate

Silver acetate Basic information
Description References
Product Name:Silver acetate
Synonyms:Silver acetate purum p.a., >=99.0% (T);Aceticacid, silver(1+) salt (1:1);Silver acetate 99.99% trace Metals basis;SILVER ACETATE REAGENTPLUS(TM) 99%;Silver acetate, 99.99% metals basis;SILVER ACETATE, REAGENTPLUS, 99%;Silveracetate,99%;silver acetate, anhydrous
CAS:563-63-3
MF:C2H3AgO2
MW:166.91
EINECS:209-254-9
Product Categories:Organic-metal salt;metal acetate salt;bc0001
Mol File:563-63-3.mol
Silver acetate Structure
Silver acetate Chemical Properties
Melting point decomposes [STR93]
density 3.25
storage temp. Store below +30°C.
solubility 10.2g/l
form Powder/Solid
color White to gray
Specific Gravity3.259
Water Solubility 10.2 g/L (20 ºC)
Sensitive Light Sensitive
Hydrolytic Sensitivity4: no reaction with water under neutral conditions
Merck 14,8505
Solubility Product Constant (Ksp)pKsp: 2.71
BRN 3595636
Exposure limitsACGIH: TWA 0.01 mg/m3
NIOSH: IDLH 10 mg/m3; TWA 0.01 mg/m3
Stability:Stable, but light sensitive. Incompatible with strong reducing agents.
InChIKeyCQLFBEKRDQMJLZ-UHFFFAOYSA-M
CAS DataBase Reference563-63-3(CAS DataBase Reference)
NIST Chemistry ReferenceSilver acetate(563-63-3)
EPA Substance Registry SystemSilver acetate (563-63-3)
Safety Information
Hazard Codes Xi,N
Risk Statements 36/37/38-50
Safety Statements 26-36-37/39-61
RIDADR 1759
WGK Germany 3
RTECS AJ4100000
8
TSCA Yes
HazardClass 9
HS Code 28432900
MSDS Information
ProviderLanguage
Silver acetate English
ACROS English
SigmaAldrich English
ALFA English
Silver acetate Usage And Synthesis
DescriptionSilver acetate (C2H3AgO2) is a photosensitive, white, crystalline solid which is widely used in the laboratory. As a source of silver ions lacking an oxidizing anion, it is a useful reagent for direct ortho-arylation, and for conversion of organohalogen compounds into alcohols, etc. It also serves as a catalyst to effectively catalyze the cycloaddition reactions of isocyanoacetates with a variety of olefins. It can be employed in the novel preparation of highly reflective, conductive silvered polymer films.Besides, it has applications in some antismoking drugs and in the health field, in which the products containing silver acetate have been applied in spray, and lozenges to deter smokers from smoking. When mixed with smoke, the silver acetate creates an unpleasant metallic taste in the smoker's mouth, thereby preventing them from smoking.
Referenceshttps://en.wikipedia.org/wiki/Silver_acetate
https://www.alfa.com/zh-cn/catalog/011660/
http://www.sigmaaldrich.com/catalog/product/sigma/s1633?lang=en&region=US

DescriptionSilver acetate is an organic compound with the empirical formula CH3COOAg (or AgC2H3O2). It is a photosensitive, white crystalline solid. It is a useful reagent in the laboratory as a water soluble source of silver lacking an oxidizing anion. It has been used in some antismoking drugs.
Chemical PropertiesOff-White/Brown Crystalline Powder
UsesOxidizing agent for use in liquid ammonia: Kline, Kershner, Inorg. Chem. 5, 932 (1966).
UsesIn the health field, silver acetate-containing products have been used in gum, spray, and lozenges to deter smokers from smoking. The silver in these products, when mixed with smoke, creates an unpleasant metallic taste in the smoker's mouth, thus deterring them from smoking. Lozenges containing 2.5 mg of silver acetate showed "modest efficacy" on 500 adult smokers tested over a three-month period. However, over a period of 12 months, prevention failed. In 1974, silver acetate was first introduced in Europe as an over-thecounter smoking-deterrent lozenge (Repaton) and then three years later as a chewing gum (Tabmint).
UsesIt is a reagent in the laboratory as a source of silver ions lacking an oxidizing anion. It is a reagent for direct ortho-arylation, and for conversion of organohalogen compounds into alcohols. Woodward cis-hydroxylation reaction employs silver acetate and iodine for selective conversin of alkenes into cis-diols. Silver acetate is the more preferred reagent for facile carbonylation of primary and secondary amines. It is also employed in the preparation of highly reflective, conductive silvered polymer films.
Reactions3 – 1 - Carbonylation
Silver acetate, when combined with carbon monoxide (CO), can induce the carbonylation of primary and secondary amines. Other silver salts can be used but the acetate gives the best yield.
2 R2NH + 2 AgOAc + CO → [R2N]2CO + 2 HOAc + 2 Ag
3 – 2 - Hydrogenation
Silver acetate in a solution of pyridine absorbs hydrogen and is reduced to metallic silver.
3 – 3 - Direct ortho - arylation
Silver acetate is a useful reagent for direct ortho-arylation (to install two adjacent substituents on an aromatic ring) for of benzylamines and N-methylbenzylamines. The reaction is palladiumcatalized and requires a slight excess of silver acetate.This reaction is shorter than previous ortho-arylation methods.





Brand nameSmokerette;Tabmint.
World Health Organization (WHO)Silver acetate has been used as a disinfectant and as an antismoking aid. It was refused registration in Cyprus on the grounds that prolonged use of silver salts can cause permanent argyria and that no well-controlled trials have been performed to establish the safety and efficacy of the preparation. It remains registered as an aid to stopping smoking in Canada and the United States.
General DescriptionWhite crystalline plates. Light sensitive. Density 3.26 g / cm3.
Air & Water ReactionsSlightly soluble in water.
Reactivity ProfileSilver acetate is freely soluble in dilute nitric acid [Merck]. Can serve as an oxidizing agent.
HazardToxic material.
Health HazardInhalation of dust irritates nose and throat. Contact with eyes or skin causes irritation. If continued for a long period, ingestion or inhalation of silver compounds can cause permanent discoloration of skin (argyria).
SafetyThe LD50 of silver acetate in mice is 36.7 mg/kg. Low doses of silver acetate in mice produced hyper-excitability, ataxia, central nervous system depression, labored breathing, and even death. The U.S. FDA recommends that silver acetate intake be limited to 756 mg over a short period of time; excessive intake may cause argyria.
SynthesisThe silver acetate salt can be synthesized by the reaction of acetic acid and silver carbonate at 45 – 60 °C. After allowing cooling to room temperature, the solid product precipitates.
2 CH3CO2H + Ag2CO3 → 2 AgO2CCH3 + H2O + CO2
It can also be precipitated from concentrated aqueous solutions of silver nitrate by treatment with a solution of sodium acetate.
The structure of silver acetate consists of 8-membered Ag2O4C2 rings formed by a pair of acetate ligands bridging a pair of silver centres.


Purification MethodsShake it with acetic acid for three days, and the process is repeated with fresh acid. The solid is then dried in a vacuum oven at 40o for 48hours. It has also been recrystallised from water containing a trace of acetic acid, and dried in air. Store it in the dark. [Beilstein 2 IV 112.]
Silver acetate Preparation Products And Raw materials
Preparation ProductsBenzenemethanol, ar-methyl-, acetate-->Lithium acetate-->2-Propanone, 1-(acetyloxy)-3-bromo--->1,5-Diacetoxypentane-->ACETIC ACID 2-NONYL ESTER-->2-(3-(methoxycarbonyl)phenyl)acetic acid-->n-Propyltriacetoxysilane-->3-ACETOXY-5-BROMOINDOLE-->butane-2,3-diyl diacetate-->INDOXYL ACETATE
Ethyl acetate Calcium acetate Ammonium acetate Silver acetate Chloroacetic acid POLY(VINYL ACETATE) Peroxyacetic acid cellulore Trifluoroacetic acid Cellulose acetate Glycine Butyl acetate Silver trifluoroacetate ACETATE Glatiramer acetate Acetic acid Silver Phenylacetic acid

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