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Silver Chemical Stability

By Paul Gaines, Ph.D.
About us - Inorganic Ventures is a leading manufacturer of inorganic standards and custom standards for ICP-OES, ICP-MS, IC and AAS. More »

Many chemists often ask us about Ag chemistry. The fact is that silver is a relatively trouble-free element, provided it is kept away from HCl. We tend to keep Ag+ solutions in nitric acid because these solutions are stable to photo-reduction. However, when HCl is added, two things can occur. First, you may get precipitation if modest amounts of HCl are present. Second, with higher amounts of HCl you form a soluble chloride complex which will undergo photo-reduction to the metal. This occurs at a rate that is proportional to the amount of light exposure.

When Using an HCl Matrix

If you must use an HCl matrix, here are some important tips:

  1. Keep the HCl content high (2-10% v/v).
  2. Keep the Ag+ concentration low (0.5 µg/mL).
  3. Keep the exposure to light at a minimum.
  4. The solution should be kept for no more than 5 months.

These lower levels of Ag+ are typically not a problem since modern ICP-OES instrumentation is so very sensitive and Ag+ itself is also quite sensitive. If you use glassware exposed to Ag+ + HCl, you should keep it isolated to avoid Ag+ contamination when using HNO3 matrices. These simple precautions along with the analytical properties listed below should make your analyses of Ag+ go much smoother.

Analytical Properties of Silver

Silver (Ag)

Chemical Compatibility:  Stable in HNO3 and HF. Avoid basic media. Ag forms more insoluble salts than any other metal. It also is subject to photochemical reduction to the metal in HCl media although 10 µg/mL solutions in 10% HCl [AgClx1-x] are commonly used in the analytical laboratory. The most common solubility problems exist with arsenate, arsenite, bromide, chloride, iodide, carbonate, chromate, cyanide, iodate, oxalate, oxide, sulfate, sulfide, tartrate, and thiocyanate in aqueous media. The addition of nitric acid renders many of these salts soluble.

Stability:  2-100 ppb levels stable for 75+ days when mixed with equivalent levels of all other elements including the precious metals (where chloride is present) when in 1% HNO3 / LDPE container. 1-10,000 ppm solutions chemically stable for years in 1-5% HNO3 / LDPE container.

Ag Containing Samples (Preparation & Solution):  Metal (soluble in HNO3); Oxides (soluble in HNO3); Ores (digestion with conc. HNO3).

Additional Information

Visit our Interactive Periodic Table for the analytical properties of more than 70 elements.

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