A flame test is relatively quick test for the presence of some elements in a sample. The technique is archaic and of questionable reliability, but once was a component of qualitative inorganic analysis. The phenomenon is related to pyrotechnics and atomic emission spectroscopy. The color of the flames is understood through the principles of atomic electron transition and photoemission, where varying elements require distinct energy levels (photons) for electron transitions.
History
Robert Bunsen invented the now-famous Bunsen burner in 1855, which was useful in flame tests due to its non-luminous flame that did not disrupt the colors emitted by the test materials.45 The Bunsen burner, combined with a prism (filtering the color interference of contaminants), led to the creation of the spectroscope, capable of emitting the spectral emission of various elements.6 In 1860, the unexpected appearance of sky-blue and dark red was observed in spectral emissions by Robert Bunsen and Gustav Kirchhoff, leading to the discovery of two alkali metals, caesium (sky-blue) and rubidium (dark red).78 Today, this low-cost method is used in secondary education to teach students to detect metals in samples qualitatively.9
Process
A flame test involves introducing a sample of the element or compound to a hot, non-luminous flame and observing the color of the flame that results.10 The compound can be made into a paste with concentrated hydrochloric acid, as metal halides, being volatile, give better results.11 Different flames can be tried to verify the accuracy of the color. Wooden splints, Nichrome wires, platinum wires, magnesia rods, cotton swabs, and melamine foam are suggested for support.121314 Safety precautions are crucial due to the flammability and toxicity of some substances involved.15161718 When using a splint, one must be careful to wave the splint through the flame rather than holding it in the flame for extended periods, to avoid setting the splint itself on fire. The use of a cotton swab or melamine foam (used in “eraser” cleaning sponges) as a support has also been suggested.192021 Sodium is a common component or contaminant in many samples,22 and its spectrum tends to dominate many flame tests others.23 The test flame is often viewed through cobalt blue glass to filter out the yellow of sodium and allow for easier viewing of other metal ions.
The color of the flames also generally depends on temperature and oxygen fed; see flame colors.24 The procedure uses different solvents and flames to view the test flame through a cobalt blue glass or didymium glass to filter the interfering light of contaminants such as sodium.25
Flame tests are subject of a number of limitations. The range of elements positively detectable under standard conditions is small. Some elements emit weakly and others (Na) very strongly. Gold, silver, platinum, palladium, and a number of other elements do not produce a characteristic flame color, although some may produce sparks (as do metallic titanium and iron); salts of beryllium and gold reportedly deposit pure metal on cooling.26 The test is highly subjective.
Principle
In flame tests, ions are excited thermally. These excited states then relax to the ground state with emission of a photon. The energy of the excited state(s) and associated emitted photon is characteristic of the element. The nature of the excited and ground states depends only on the element. Ordinarily, there are no bonds to be broken, and molecular orbital theory is not applicable. The emission spectrum observed in flame test is also the basis of flame emission spectroscopy, atomic emission spectroscopy, and flame photometry.2728
Common elements
Some common elements and their corresponding colors are:
| Symbol | Name | Color29 | Image |
|---|---|---|---|
| Al | Aluminium | Silver-white, in very high temperatures such as an electric arc, light blue | |
| As | Arsenic | Blue | |
| B | Boron | Bright green | |
| Ba | Barium | Light apple green | |
| Be | Beryllium | White | |
| Bi | Bismuth | Azure blue | |
| Ca | Calcium | Brick/orange red; light green as seen through blue glass. | |
| Cd | Cadmium | Brick red | |
| Ce | Cerium | Yellow | |
| Co | Cobalt | Silvery white | |
| Cr | Chromium | Silvery white | |
| Cs | Caesium | Blue-violet | |
| Cu(I) | Copper(I) | Blue-green | |
| Cu(II) | Copper(II) (non-halide) | Green | |
| Cu(II) | Copper(II) (halide) | Blue-green | |
| Fe(II) | Iron(II) | Gold, when very hot such as an electric arc, bright blue, or green turning to orange-brown | |
| Fe(III) | Iron(III) | Orange-brown | |
| Ge | Germanium | Pale blue | |
| H | Hydrogen | Pale blue | |
| Hf | Hafnium | White | |
| Hg | Mercury | Red | |
| In | Indium | Indigo blue | |
| K | Potassium | Lilac (pink); invisible through cobalt blue glass (purple) | |
| Li | Lithium | Carmine red; invisible through green glass | |
| Mg | Magnesium | Colorless due to Magnesium Oxide layer, but burning Mg metal gives an intense white | |
| Mn(II) | Manganese(II) | Yellowish green | |
| Mo | Molybdenum | Yellowish green | |
| Na | Sodium | Bright yellow; invisible through cobalt blue glass. See also Sodium-vapor lamp | |
| Nb | Niobium | Green or blue | |
| Ni | Nickel | Colorless to silver-white | |
| P | Phosphorus | Pale blue-green | |
| Pb | Lead | Blue-white | |
| Ra | Radium | Crimson red | |
| Rb | Rubidium | Violet red | |
| S | Sulfur | Blue | |
| Sb | Antimony | Pale green | |
| Sc | Scandium | Orange | |
| Se | Selenium | Azure blue | |
| Sn | Tin | Blue-white | |
| Sr | Strontium | Crimson to scarlet red; yellowish through green glass and violet through blue cobalt glass | |
| Ta | Tantalum | Blue | |
| Te | Tellurium | Pale green | |
| Ti | Titanium | Silver-white | |
| Tl | Thallium | Pure green | |
| V | Vanadium | Yellowish green | |
| W | Tungsten | Green | |
| Y | Yttrium | Carmine, crimson, or scarlet red | |
| Zn | Zinc | Colorless to blue-green | |
| Zr | Zirconium | Mild/dull red |
See also
- Bead test
- Spark testing
- Colored fire
- Electron excitation
- Emission spectrum
- Inductively coupled plasma atomic emission spectroscopy
External links
Media related to Flame test at Wikimedia Commons
- Flame Test - Coloring Fire - Pictures of Several Flame Tests, Includes Instructions
- WebMineral.com - Flame Coloration by Element
References
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