Amalgam (chemistry)

An amalgam is an alloy of mercury with another metal. Almost all metals can form amalgams with mercury, the notable exceptions being iron, platinum, tungsten, and tantalum. Silver-mercury amalgams are important in dentistry, and gold-mercury amalgam is used in the extraction of gold from ore.

Zinc amalgam finds use in organic synthesis, e.g. for the Clemmensen Reduction. It is the reducing agent in the Jones reductor, used in analytical chemistry.

For the alkali metals, amalgamation is exothermic, and distinct chemical forms can be identified, such as KHg and KHg₂. KHg is a gold-coloured compound with a melting point of 178 °C, and KHg₂ a silver-coloured compound with a melting point of 278 °C. These amalgams are very sensitive to air and water, but can be worked with under dry nitrogen. The Hg-Hg distance is around 300 picometres, Hg-K around 358 pm.

Phases K₅Hg₇ and KHg₁₁ are also known; rubidium, strontium and barium undecamercurides are known and isostructural. Sodium amalgam (NaHg₂) has a different structure, with the mercury atoms forming hexagonal layers, and the sodium atoms a linear chain which fits into the holes in the hexagonal layers, but the potassium atom is too large for this structure to work in KHg₂.

Sodium amalgam is produced as a by product of the chloralkali process and used as an important reducing agent in organic and inorganic chemistry. With water it decomposes into concentrated sodium hydroxide solution, hydrogen and mercury, which can then return to the chloralkali process anew. If absolutely water-free alcohol is used instead of water, an alkoxide of sodium is produced instead of the alkali solution.

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