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 * In medieval times, gold was often seen as beneficial for
the health, in the belief that something that rare and beautiful
could not be anything but healthy. Even some modern esotericists
and forms of alternative medicine assign metallic gold a
healing power. Some gold salts do have anti-inflammatory
properties and are used as pharmaceuticals in the treatment
of arthritis and other similar conditions. However, only
salts and radioisotopes of gold are of pharmacological value,
as elemental (metallic) gold is inert to all chemicals it
encounters inside the body.
* Gold leaf, flake or dust is used on and in some gourmet
foodstuffs, notably sweets and drinks as decorative ingredient.
Gold flake was used by the nobility in Medieval Europe as
a decoration in foodstuffs and drinks, in the form of leafs,
flakes or dust, either to demonstrate the host's wealth or
in the honest belief that something that valuable and rare
must be beneficial for one's health.
* Gold solder is used for joining the components of gold
jewelry by high-temperature hard soldering or brazing. If
the work is to be of hallmarking quality, gold solder must
match the carat weight of the work, and alloy formulae are
manufactured in most industry-standard carat weights to color
match yellow and white gold. Gold solder is usually made
in at least three melting-point ranges referred to as Easy,
Medium and Hard. By using the hard, high-melting point solder
first, followed by solders with progressively lower melting
points, goldsmiths can assemble complex items with several
separate soldered joints.
* Goldwasser (German: "Goldwater") is a traditional
herbal liqueur produced in Gda_sk, Poland and Schwabach,
Germany and contains flakes of gold leaf. There are also
some expensive (~$1000) cocktails which contain flakes of
gold leaf. However, since metallic gold is inert to all body
chemistry, it adds no taste nor has it any other nutritional
effect and leaves the body unaltered.
* Dentistry. Gold alloys are used in restorative dentistry,
especially in tooth restorations, such as crowns and permanent
bridges. The gold alloys' slight malleability facilitates
the creation of a superior molar mating surface with other
teeth and produces results that are generally more satisfactory
than those produced by the creation of porcelain crowns.
The use of gold crowns in more prominent teeth such as incisors
is favored in some cultures and discouraged in others.
* Gold can be made into thread and used in embroidery.
* Gold is ductile and malleable, meaning it can be drawn
into very thin wire and can be beaten into very thin sheets
known as gold leaf.
* Gold produces a deep, intense red color when used as a
coloring agent in glass.
* In photography, Gold toners are used to shift the color
of silver bromide black and white prints towards brown or
blue tones, or to increase their stability. Used on sepia-toned
prints, gold toners produce red tones. Kodak publish formulae
for several types of gold toners, which use gold as the chloride
(Kodak, 2006)
* Electronics. The concentration of free electrons in gold
metal is 5.90_1022 cm-3. Gold is highly conductive to electricity,
and has been used for electrical wiring in some high energy
applications (silver is even more conductive per volume,
but gold has the advantage of corrosion resistance). For
example, gold electrical wires were used during some of the
Manhattan Project's atomic experiments, but large high current
silver wires were used in the calutron isotope separator
magnets in the project.
* Though gold is attacked by free chlorine, its good conductivity
and general resistance to oxidation and corrosion in other
environments (including resistance to non-chlorinated acids)
has led to its widespread industrial use in the electronic
era as a thin layer coating electrical connectors of all
kinds, thereby ensuring good connection. For example, gold
is used in the connectors of the more expensive electronics
cables, such as audio, video and USB cables. The benefit
of using gold over other connector metals such as tin in
these applications, is highly debated. Gold connectors are
often criticized by audio-visual experts as unnecessary for
most consumers and seen as simply a marketing ploy. However,
the use of gold in other applications in electronic sliding
contacts in highly humid or corrosive atmospheres, and in
use for contacts with a very high failure cost (certain computers,
communications equipment, spacecraft, jet aircraft engines)
remains very common, and is unlikely to be replaced in the
near future by any other metal.
* Besides sliding electrical contacts, gold is also used
in electrical contacts because of its resistance to corrosion,
electrical conductivity, ductility and lack of toxicity.[3]
Switch contacts are generally subjected to more intense corrosion
stress than are sliding contacts.
* Colloidal gold (Colloidal sols of gold nanoparticles) in
water are intensely red - colored, and can be made with tightly-controlled
particle sizes up to a few tens of nm across by reduction
of gold chloride with citrate or ascorbate ions. Colloidal
gold is used in research applications in medicine, biology
and materials science. The technique of immunogold labeling
exploits the ability of the gold particles to adsorb protein
molecules onto their surfaces. Colloidal gold particles coated
with specific antibodies can be used as probes for the presence
and position of antigens on the surfaces of cells (Faulk
and Taylor 1979). In ultrathin sections of tissues viewed
by electron microscopy, the immunogold labels appear as extremely
dense round spots at the position of the antigen (Roth et
al. 1980). Colloidal gold is also the form of gold used as
gold paint on ceramics prior to firing.
 * Gold, or alloys of gold and palladium, are applied as conductive
coating to biological specimens and other non-conducting
materials such as plastics and glass to be viewed in a scanning
electron microscope. The coating, which is usually applied
by sputtering with an argon plasma, has a triple role in
this application. Gold's very high electrical conductivity
drains electrical charge to earth, and its very high density
provides stopping power for electrons in the SEM's electron
beam, helping to limit the depth to which the electron beam
penetrates the specimen. This improves definition of the
position and topography of the specimen surface and increases
the spatial resolution of the image. Gold also produces a
high output of secondary electrons when irradiated by an
electron beam, and these low-energy electrons are the most
commonly-used signal source used in the scanning electron
microscope.
* Many competitions, and honors, such as the Olympics and
the Nobel Prize, award a gold medal to the winner.
* As gold is a good reflector of both infrared and visible
light, it is used for the protective coatings on many artificial
satellites and in infrared protective faceplates in thermal
protection suits and astronauts' helmets.
* Gold is used as the reflective layer on some high-end CDs.
* The isotope gold-198, (half-life: 2.7 days) is used in
some cancer treatments and for treating other diseases.
* Gold can be used in food and has the E Number 175
As gold chemical compounds
Gold
is attacked
by and dissolves in alkaline
solutions of potassium
or sodium cyanide, and
Gold cyanide is used commercially
in electro-plating of gold onto base metals.
Gold chloride (chloroauric acid) solutions
are used to make colloidal gold by reduction
with citrate or ascorbate ions. Gold chloride
and gold oxide are used to make highly-valued
cranberry or red-coloured glass, which,
like colloidal gold sols, contains evenly-sized
spherical gold nanoparticles.
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