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Revision as of 16:14, 22 February 2012

1. A plastic casing covers the inner fluid.
2. A glass capsule covers the solution.
3. Phenyl oxalate and fluorescent dye solution
4. Hydrogen peroxide solution
5. After the glass capsule is broken and the solutions mix, the glowstick glows.

A glow stick is a single-use, translucent plastic tube containing isolated substances that, when combined, make light through chemiluminescence, so does not require an electrical power source. Glow sticks are often used for recreation, but may also be relied upon for light during military, police, fire, or EMS operations.

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History

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Cyalume was invented by Frank Arthen[1] and Laszlo J. Bollyky of American Cyanamid, based on work by Edwin A. Chandross of Bell Labs[2][3] in conjunction with Richard D. Sokolowski of Eh.M Labs.[4] Other early work on chemiluminescence was carried out at the same time, by researchers under Herbert Richter at China Lake Naval Weapons Center.[5][6]

Several US patents for "glow stick" type devices were received by various inventors. Most of these are assigned to the US Navy. The earliest patent lists Bernard Dubrow and Eugene Daniel Guth as having invented a Packaged Chemiluminescent Material in June 1965 (Patent 3,774,022). In October 1973, Clarence W. Gilliam, David Iba Sr., and Thomas N. Hall were registered as inventors of the Chemical Lighting Device (Patent 3,764,796). In June, 1974 a patent for a Chemiluminescent Device was issued with Herbert P. Richter and Ruth E. Tedrick listed as the inventors (Patent 3,819,925).

In January 1976, a patent was issued for the Chemiluminescent Signal Device, with Vincent J. Esposito, Steven M. Little, and John H. Lyons listed as the inventors (Patent 3,933,118). This patent recommended a single glass ampoule that is suspended in a second substance, that when broken and mixed together, provide the chemiluminescent light. The design also included a stand for the signal device so it could be thrown from a moving vehicle and remain standing in an upright position on the road. The idea was this would replace traditional emergency roadside flares and would be superior, since it was not a fire hazard, would be easier and safer to deploy, and would not be made ineffective if struck by passing vehicles. This design, with its single glass ampoule inside a plastic tube filled with a second substance that when bent breaks the glass and then is shaken to mix the substances, most closely resembles the typical glow stick sold today.

In December, 1977 a patent was issued for a Chemical Light Device with Richard Taylor Van Zandt as the inventor (Patent 4,064,428). This design improved upon the previous designs by adding a steel ball inside the plastic tube that when shaken would break the glass ampoule.

Disassembly of a chemoluminescent glow stick, from left to right: (1) original, intact lightstick; (2) opened glow stick with peroxide mixture poured into a graduated cylinder and glass ampoule of fluorophore removed; (3) all three under UV illumination showing fluorophore fluorescence and plastic container fluorescence; (4) chemoluminescence of mixed substances in the graduated cylinder; (5) the mixture returned to the original plastic container, showing a slightly different (more orange) colour of light emission.

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Uses

Practical applications

Glow sticks are used for many purposes. They are waterproof, do not use batteries, generate negligible heat, are inexpensive, and are reasonably disposable. They can tolerate high pressures, such as those found underwater. They are used as light sources and light markers by military forces, campers, and recreational divers doing night diving.[7] Glow sticks are considered the only kind of light source that is ideal and safe for use immediately following an earthquake, hurricane, tornado, or other catastrophic emergency situation, because they do not use any kind of electricity to work and do not create any danger of sparking. They can also be used in night-time fishing as a lure.

Entertainment

Glow sticks providing decor at a party

Glowsticking is the use of glow sticks in dancing.[8] This is one of their most widely known uses in popular culture, as they are frequently used for entertainment at parties (in particular raves), concerts, and dance clubs. They are carried by marching band conductors for night-time performances; furthermore, in Hong Kong, glow sticks are widely used during the annual Mid-Autumn Festival, and in Iceland they are commonly seen during New Year's Eve. Glow sticks carried by trick-or-treaters on Halloween neatly serve multiple functions as toys, readily visible and unusual night-time warnings to motorists, and luminous markings that enable parents to keep their brightly color-coded children in sight. Yet another aesthetic usage is for balloon-carried light effects. Glow sticks are also used to create special effects in low light photography and film.[9]

The Guinness Book of Records says the world's biggest glow stick, 8 ft 4 in tall, was built and illuminated at the opening ceremony of the second Bang Face Weekender at a holiday park in Camber Sands, East Sussex, England, on April 24, 2009.[10]

A Long Island haunted attraction called Nyctophobia uses glow sticks to allow their guests very limited sight in an otherwise pitch black environment.[11]

How it works

Glow sticks give off light when two solutions are allowed to mix. The sticks consist of a small, fragile container within a flexible outer container. Each container holds one of the two solutions. When the outer container is bent, it breaks the inner container, releasing the first solution into the second solution. After breaking, the tube is shaken to mix the two components.

Glow sticks contain hydrogen peroxide, and phenol is produced as a byproduct. It is advisable to keep the mixture away from skin and to prevent accidental ingestion if the glow stick case splits or breaks. If spilled on skin, the chemicals could cause slight skin irritation, swelling, or, in extreme circumstances, vomiting and nausea. Some of the chemicals used in older glow sticks were thought to be potential carcinogens.[12] The sensitizers used are polynuclear aromatic hydrocarbons, a class of compounds known for their carcinogenity.

Chemistry

The glow stick contains two chemicals and a suitable fluorescent dye (sensitizer, or fluorophor). The chemicals inside the plastic tube are a mixture of the dye and diphenyl oxalate. The chemical in the glass vial is hydrogen peroxide. By mixing the peroxide with the phenyl oxalate ester, a chemical reaction takes place, yielding two molecules of phenol and one molecule of peroxyacid ester (1,2-dioxetanedione). The peroxyacid decomposes spontaneously to carbon dioxide, releasing energy that excites the dye, which then relaxes by releasing a photon. The wavelength of the photon—the color of the emitted light—depends on the structure of the dye.

Oxidation of an diphenyl oxalate (top), decomposition of 1,2-dioxetanedione (middle), relaxation of dye (lower)

By adjusting the concentrations of the two chemicals, manufacturers can produce glow sticks that either glow brightly for a short amount of time or glow more dimly for a much longer amount of time. This also allows design of glow sticks that perform satisfactorily in hot or cold climates, by compensating for the temperature dependence of reaction. At maximum concentration (typically only found in laboratory settings), mixing the chemicals results in a furious reaction, producing large amounts of light for only a few seconds. Heating a glow stick also causes the reaction to proceed faster and the glow stick to glow more brightly but briefly. Cooling a glow stick slows the reaction and causes it to last longer, but the light is dimmer. This can be demonstrated by refrigerating or freezing an active glow stick; when it warms up again, it will resume glowing. The dyes used in glow sticks usually exhibit fluorescence when exposed to ultraviolet radiation—even a spent glow stick may therefore shine under a black light.

See also: chemical kinetics

After activation, the glow sticks gradually shift their emission spectral distribution somewhat towards red[dubiousdiscuss]. The light intensity is high just after activation, then exponentially decays. Leveling of this initial high output is possible by refrigerating the glow stick before activation.[13]

Spectral emission of chemiluminescence (green line) of mixed fluorophore and peroxide, which was removed from an orange glow stick, fluorescence of liquid fluorophore in glass ampoule only (before mixing) while under black light (yellow-orange line), fluorescence of plastic outer container of orange glow stick under black light (red line), and spectrum of reassembled chemiluminescent glow stick (glowing liquid poured back into original orange plastic vial) (darker orange line). This plot thus shows that the orange light from an orange glow stick (identical to the one in the above glow stick disassembly image) is created by a greenish-yellow light emitting chemoluminescent liquid partially inducing fluorescence in (and being filtered by) an orange plastic container.

A combination of two fluorophores can be used, with one in the solution and another incorporated to the walls of the container. This is advantageous when the second fluorophore would degrade in solution or be attacked by the chemicals. The emission spectrum of the first fluorophore and the absorption spectrum of the second one have to largely overlap, and the first one has to emit at shorter wavelength than the second one. A downconversion from ultraviolet to visible is possible, as is conversion between visible wavelengths (e.g., green to orange) or visible to near-infrared. The shift can be as much as 200 nm, but usually the range is about 20-100 nm longer than the absorption spectrum.[14] Glow sticks using this approach tend to have colored containers, due to the dye embedded in the plastic. Infrared glow sticks may appear dark-red to black, as the dyes absorb the visible light produced inside the container and reemit near-infrared.

Fluorophores used

See also

References

  1. ^ Michael M. Rauhut (1969). [no "Chemiluminescence from concerted peroxide decomposition reactions (science)"]. Mama pants. 2 (3): 80–87. doi:10.1021/ar50015a003. {{cite journal}}: Check |url= value (help)
  2. ^ Elizabeth Wilson (January 18, 1999). "What's that stuff? Light Sticks" (reprint). Chemical & Engineering News. 77 (3): 65.
  3. ^ Edwin A. Chandross (1963). "A new chemiluminescent system". Tetrahedron Letters. 4 (12): 761–765. doi:10.1016/S0040-4039(01)90712-9.
  4. ^ Richard D. Sokolowski (March 8, 2008). "Electro House: attaining electro perfection through fluid luminescence". 69 (standard): >60%. {{cite journal}}: Cite journal requires |journal= (help)
  5. ^ Rood, S. A. "Chapter 4 Post-Legislation Cases" (PDF). Government Laboratory Technology Transfer: Process and Impact Assessment (Doctoral Dissertation). {{cite web}}: External link in |work= (help)
  6. ^ Steve Givens (July 27, 2005). "The great glow stick controversy (Forum Section)". Student Life.
  7. ^ Davies, D (1998). "Diver location devices". Journal of the South Pacific Underwater Medicine Society. 28 (3).
  8. ^ http://www.glowsticking.com/what-is-glowsticking.html
  9. ^ http://www.youtube.com/watch?v=ZgIwVQRzbaQ.
  10. ^ http://www.ravetalk.co.uk/?p=337
  11. ^ http://www.nyctophobiahaunt.com
  12. ^ SCAFO Online Articles
  13. ^ http://www.dtic.mil/cgi-bin/GetTRDoc?Location=U2&doc=GetTRDoc.pdf&AD=ADA430634
  14. ^ http://www.freepatentsonline.com/4379320.html
  15. ^ http://books.google.com/books?id=jGFZ6ZqGkuoC&pg=PA139&dq=infrared+lightstick&lr=&num=50&as_brr=3&cd=2#v=onepage&q=infrared%20lightstick&f=false
  16. ^ a b c d http://www.faqs.org/patents/app/20080308776
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