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Bead test

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The bead test is a traditional part of qualitative inorganic analysis to test for the presence of certain metals. The oldest one is the borax bead test or blister test. It was introduced by Berzelius in 1812.[1] Since then other salts were used as fluxing agents, such as sodium carbonate or sodium fluoride. The most important one after borax is microcosmic salt,[1] which is the basis of the microcosmic salt bead test.[2]

Borax bead

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A small loop is made in the end of a platinum wire and heated in a Bunsen burner flame until red hot. A stick made of another inert substance such as a magnesia stick (MgO) may also be used. It is then dipped into powdered borax and held in the hottest part of the flame where it swells up as it loses its water of crystallization and then shrinks, forming a colourless, transparent glass-like bead (a mixture of sodium metaborate and boric anhydride).

The bead is allowed to cool and then wetted and dipped into the sample to be tested such that only a tiny amount of the substance adheres to the bead. If too much substance is used, the bead will become dark and opaque. The bead and adhering substance is then heated in the lower, reducing, part of the flame, allowed to cool, and the colour observed. It is then heated in the upper, oxidizing, part of the flame, allowed to cool, and the colour observed again.[2]

Characteristic coloured beads are produced with salts of copper, iron, chromium, manganese, cobalt and nickel. After the test, the bead is removed by heating it to fusion point, and plunging it into a vessel of water.

Metal[3] Oxidizing flame Reducing flame[4]
Aluminum colorless (hot and cold), opaque colorless, opaque
Antimony colorless, yellow or brown (hot) gray and opaque
Barium colorless
Bismuth colorless, yellow or brownish (hot) gray and opaque
Cadmium colorless gray and opaque
Calcium colorless
Cerium red (hot) colorless (hot and cold)
Copper sky blue (hot and cold), opaque red, opaque
Iron yellow (hot and cold), opaque bottle-green, opaque
Manganese pink (hot and cold), opaque colorless, opaque
Cobalt deep blue (hot and cold), opaque deep blue, opaque
Nickel yellow-brown (hot and cold), opaque grey, opaque
Silver colourless (hot and cold), opaque grey, opaque
Vanadium colourless(hot and cold), opaque green, opaque
Uranium yellow-brown (hot and cold), opaque green, opaque
Chromium green (hot and cold), opaque green, opaque
Platinum colourless(hot and cold), opaque grey, opaque
Gold yellow-brown (hot and cold), opaque grey, opaque
Tin colourless(hot and cold), opaque colourless, opaque
Titanium colourless (hot and cold), opaque yellow, opaque (hot) violet (cold)
Tungsten colourless(hot and cold), opaque brown, opaque
Magnesium colourless(hot and cold), opaque colourless, opaque
Molybdenum colourless(hot and cold), opaque yellow or brown, opaque
Strontium colourless(hot and cold), opaque colourless, opaque
Thorium colourless(hot and cold), opaque colourless, opaque
Yttrium colourless(hot and cold), opaque colourless, opaque
Neodymium colourless(hot and cold), opaque colourless, opaque
Praseodymium colourless(hot and cold), opaque colourless, opaque
Silicon colourless(hot and cold), opaque colourless, opaque
Germanium colourless(hot and cold), opaque colourless, opaque

See also

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References

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  1. ^ a b Materials Handbook: A Concise Desktop Reference, François Cardarelli [1]
  2. ^ a b Vogel, Arthur I.; Svehla, G. (1979), Vogel's Textbook of Macro and Semimicro Qualitative Inorganic Analysis (5th ed.), London: Longman, ISBN 0-582-44367-9 – via the Internet Archive
  3. ^ CRC Handbook of Chemistry and Physics. CRC Press. 1985. ISBN 0-8493-0466-0.
  4. ^ "Borax Bead Tests".