Photochromic lens

Last updated August 22, 2024

A photochromic lens is an optical lens that darkens on exposure to light of sufficiently high frequency, most commonly ultraviolet (UV) radiation. In the absence of activating light, the lenses return to their clear state. Photochromic lenses may be made of polycarbonate, or another plastic. Glass lenses use visible light to darken. They are principally used in glasses that are dark in bright sunlight, but clear, or more rarely, lightly tinted in low ambient light conditions. They darken significantly within about a minute of exposure to bright light and take somewhat longer to clear. A range of clear and dark transmittances is available.

In one sort of technology, molecules of silver chloride or another silver halide are embedded in photochromic lenses. They are transparent to visible light without significant ultraviolet component, which is normal for artificial lighting. In another sort of technology, organic photochromic molecules, when exposed to ultraviolet (UV) rays as in direct sunlight, undergo a chemical process that causes them to change shape and absorb a significant percentage of the visible light, i.e., they darken. These processes are reversible; once the lens is removed from strong sources of UV rays the photochromic compounds return to their transparent state.

Invention

Photochromic lenses were developed by William H. Armistead and Stanley Donald Stookey at the Corning Glass Works Inc. in the 1960s.^[1]

Technical details

Mechanism

The glass version of these lenses achieves their photochromic properties through the embedding of microcrystalline silver halides (usually silver chloride) in a glass substrate. Plastic photochromic lenses use organic photochromic molecules (for example oxazines and naphthopyrans) to achieve the reversible darkening effect. These lenses darken when exposed to ultraviolet light of the intensity present in sunlight, but not in artificial light.

In glass lenses, when in the presence of UV-A light (wavelengths of 320–400 nm) electrons from the glass combine with the colourless silver cations to form elemental silver. Because elemental silver is visible, the lenses appear darker.

{\ce {AgCl + e^- <=> Ag + Cl^-}}

Back in the shade, this reaction is reversed. The silver returns to its original ionic state, and the lenses become clear.

{\ce {Ag - e^- -> Ag^+}}

{\ce {Ag^+ + Cl^- -> AgCl}}

With the photochromic material dispersed in the glass substrate, the degree of darkening depends on the thickness of glass, which poses problems with variable-thickness lenses in prescription glasses. With plastic lenses, the material is typically embedded into the surface layer of the plastic in a uniform thickness of up to 150 μm.

Variables

Typically, photochromic lenses darken substantially in response to UV light in less than one minute, and continue to darken a little more over the next fifteen minutes.^[2] The lenses begin to clear in the absence of UV light, and will be noticeably lighter within two minutes, mostly clear within five minutes, and fully back to their non-exposed state in about fifteen minutes. A report by the Institute of Ophthalmology at the University College London suggested that at their clearest photochromic lenses can absorb up to 20% of ambient light.^[3]

Because photochromic compounds fade back to their clear state by a thermal process, the higher the temperature, the less dark photochromic lenses will be. This thermal effect is called "temperature dependency" and prevents these devices from achieving true sunglass darkness in very hot weather. Conversely, photochromic lenses will get very dark in cold weather conditions. Once inside, away from the triggering UV light, the cold lenses take longer to regain their transparency than warm lenses.

A number of sunglass manufacturers and suppliers including INVU, BIkershades, Tifosi, Intercast, Oakley, ZEISS, Serengeti Eyewear, and Persol provide tinted lenses that use photochromism to go from a dark to a darker state. They are typically used for outdoor sunglasses rather than as general-purpose lenses.

Related Research Articles

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<span class="mw-page-title-main">Optical filter</span> Filters which selectively transmit specific colors

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<span class="mw-page-title-main">Photochromism</span> Reversible chemical transformation by absorption of electromagnetic radiation

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Ultraviolet photography is a photographic process of recording images by using radiation from the ultraviolet (UV) spectrum only. Images taken with ultraviolet radiation serve a number of scientific, medical or artistic purposes. Images may reveal deterioration of art works or structures not apparent under light. Diagnostic medical images may be used to detect certain skin disorders or as evidence of injury. Some animals, particularly insects, use ultraviolet wavelengths for vision; ultraviolet photography can help investigate the markings of plants that attract insects, while invisible to the unaided human eye. Ultraviolet photography of archaeological sites may reveal artifacts or traffic patterns not otherwise visible.

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Stanley Donald Stookey was an American inventor. He had 60 patents in his name related to glass and ceramics, some patents solely his and others shared as joint patents with other inventors. His discoveries and inventions have contributed to the development of ceramics, eyeglasses, sunglasses, cookware, defense systems, and electronics.

<span class="mw-page-title-main">Photosensitive glass</span> Clear glass with microscopic metal particles sensitive to UV light

Photosensitive glass, also called photostructurable glass (PSG) or photomachinable glass, is a glass in the lithium-silicate family of glasses onto which images can be etched using shortwave radiations, such as ultraviolet. Photosensitive glass was first discovered by S. Donald Stookey in 1937.

Photographic film is a strip or sheet of transparent film base coated on one side with a gelatin emulsion containing microscopically small light-sensitive silver halide crystals. The sizes and other characteristics of the crystals determine the sensitivity, contrast, and resolution of the film. Film is typically segmented in frames, that give rise to separate photographs.

Glass coloring and color marking may be obtained in several ways.

by the addition of coloring ions,
by precipitation of nanometer-sized colloids,
Ancient Roman enamelled glass, 1st century, Begram Hoard
by colored inclusions
by light scattering
by dichroic coatings, or
by colored coatings

Optical glass refers to a quality of glass suitable for the manufacture of optical systems such as optical lenses, prisms or mirrors. Unlike window glass or crystal, whose formula is adapted to the desired aesthetic effect, optical glass contains additives designed to modify certain optical or mechanical properties of the glass: refractive index, dispersion, transmittance, thermal expansion and other parameters. Lenses produced for optical applications use a wide variety of materials, from silica and conventional borosilicates to elements such as germanium and fluorite, some of which are essential for glass transparency in areas other than the visible spectrum.

References

↑ Armistead, W. H.; Stookey, S. D. (April 10, 1964). "Photochromic Silicate Glasses Sensitized by Silver Halides". Science. 144 (3615): 150–154. Bibcode:1964Sci...144..150A. doi:10.1126/science.144.3615.150. PMID 17808277.
↑ "THE TECHNOLOGY WITHIN THE LENSES". Archived from the original on 2012-12-16.
↑ Selva Kumar (19 April 2007). "UCL in the News: Lookout's lenses blamed for sea accident". UCL News. Retrieved 28 February 2014.

External links

"Photochromic lenses", How stuff works, 2000-06-29.

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[1] Armistead, W. H.; Stookey, S. D. (April 10, 1964). "Photochromic Silicate Glasses Sensitized by Silver Halides". Science. 144 (3615): 150–154. Bibcode:1964Sci...144..150A. doi:10.1126/science.144.3615.150. PMID 17808277.

[2] "THE TECHNOLOGY WITHIN THE LENSES". Archived from the original on 2012-12-16.

[3] Selva Kumar (19 April 2007). "UCL in the News: Lookout's lenses blamed for sea accident". UCL News. Retrieved 28 February 2014.

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