|-
! colspan="2" align=center bgcolor="#ffc0c0" |
General
|-
|
Name,
Symbol, Number
| zinc, Zn, 30
|-
|
Chemical series
|
transition metals
|-
|
Group,
Period,
Block
|
12,
4,
d
|-
|
Density, Hardness
| 7140
kg/m3, 2.5
|-
|
Appearance
| align="center" | blueish pale grey
Image:Zn,30.jpg
|-
! colspan="2" align="center" bgcolor="#ffc0c0" |
Atomic properties
|-
| Atomic weight
| 65.409 amu
|-
|
Atomic radius (calc.)
| 135 (142) pm
|-
|
Covalent radius
| 131 pm
|-
|
van der Waals radius
| 139 pm
|-
|
Electron configuration
|
[Ar]3d
104s
2
|-
|
e- 's per
energy level
| 2, 8, 18, 2
|-
| Oxidation states (
Oxide)
| 2 (amphoteric)
|-
|
Crystal structure
| hexagonal
|-
! colspan="2" align="center" bgcolor="#ffc0c0" |
Physical properties
|-
| State of matter
| solid (
diamagnetic)
|-
|
Melting point
| 692.68
K (419.52 °
C)
|-
|
Boiling point
| 1180 K (907.22 °C)
|-
|
Molar volume
| 9.16
×10-6 m
3/mol
|-
|
Heat of vaporization
| 115.3
kJ/mol
|-
|
Heat of fusion
| 7.322 kJ/mol
|-
|
Vapor pressure
| 192.2
Pa at 692.73 K
|-
|
Velocity of sound
| 3700
m/s at 293.15 K
|-
! colspan="2" align="center" bgcolor="#ffc0c0" |
Miscellaneous
|-
|
Electronegativity
| 1.65 (Pauling scale)
|-
|
Specific heat capacity
| 390 J/(kg
|-
|
Electrical conductivity
| 16.6 10
6/(m·
ohm)
|-
|
Thermal conductivity
| 116 W/(m
|-
| 1
st ionization potential
| 906.4 kJ/mol
|-
| 2
nd ionization potential
| 1733.3 kJ/mol
|-
| 3
rd ionization potential
| 3833 kJ/mol
|-
| 4
th ionization potential
| 5731 kJ/mol
|-
! colspan="2" align="center" bgcolor="#ffc0c0" |
Most stable isotopes
|-
| colspan="2" |
|-
! colspan="2" align="center" bgcolor="#ffc0c0" |
SI units & STP are used except where noted.
Zinc is a
chemical element in the
periodic table that has the symbol
Zn and
atomic number 30.
Notable characteristics
Zinc is a moderately reactive
metal that will combine with
oxygen and other non-metals, and will react with dilute
acids to release
hydrogen. The one common oxidation state of zinc is +2.
Applications
Zinc is the fourth most common metal in use, trailing only
iron,
aluminium, and
copper in annual production.
- Zinc is used to galvanize metals such as steel to prevent their corrosion.
- Zinc is used in alloys such as brass, nickel silver, typewriter metal, various solder formulas, German silver, etc.
- Brass, in turn, has wide application because of its strength and corrosion resistance.
- Zinc is used in die castings, especially by the automobile industry.
- Rolled zinc is used as part of the containers of batteries.
- Zinc oxide is used as a white pigment in watercolors and paints, and as an activator in the rubber industry. As an over-the-counter ointment, it is applied as a thin coating on the exposed skin of the face and nose to prevent dehydration and thereby protect against sunburn in the summer and windburn in the winter. Applied thinly to a baby's diaper area (perineum) with each diaper change, it protects against rash. As determined in the Age-Related Eye Disease Study, it's part of an effective treatment for age-related macular degeneration in some cases.
- Zinc chloride is used as a deodorant and as a wood preservative.
- Zinc sulfide is used in luminescent pigments, for making the hands of clocks and other items that glow in the dark.
- Zinc methyl (Zn(CH3)2) is used in a number of organic syntheses.
- Zinc stearate is a lubricative plastic additive.
- Lotions made of calamine, a mix of Zn-(hydroxy-)carbonates and silicates, are used to treat skin rash.
- Zinc metal is included in most proprietary over-the-counter daily vitamin and mineral preparations. Along with some other metals, it is believed by some to possess anti-oxidant properties, which protect against premature aging of the skin and muscles of the body. In larger amounts, taken as zinc alone in other proprietaries, it is believed by some to speed up the healing process after an injury.
- Zinc gluconate glycine is taken in lozenge form as a remedy for the common cold.
History
Zinc
Zinc alloys have been used for centuries, as brass goods dating to
1000-
1400 BC have been found in
Palestine and zinc objects with 87% zinc have been found in prehistoric
Transylvania. Because of the low boiling point and chemical reactivity of this metal (isolated zinc would tend to go up the chimney rather than be captured), the true nature of this metal was not understood in ancient times.
The manufacture of
brass was known to the
Romans by about
30 BC, using a technique where
calamine and
copper were heated together in a crucible. The
zinc oxides in calamine were reduced, and the free zinc metal was trapped by the copper, forming an
alloy. The resulting brass was either cast or hammered into shape.
Smelting and extraction of impure forms of zinc was being accomplished as early as AD 1000 in
India and
China. By the end of the
14th century, the Hindus were aware of the existence of zinc as a metal separate from the seven known to the ancients. In the West, the discovery of pure metallic zinc is most often credited to the German
Andreas Marggraf, in the year 1746, though the whole story is considerably more involved.
Descriptions of brass manufacture are found in Western Europe in the writings of Albertus Magnus, c. 1248, and by the
16th century, the understanding and awareness of the new metal broadened considerably. Agricola observed, in 1546, that a white metal could be condensed and scraped off the walls of a furnace when zinc ores were smelted. He added in his notes that a similar metal called "zincum" was being produced in Silesia.
Paracelsus (died 1541) was the first in the West to say that "zincum" was a new metal and that it had a separate set of chemical properties from other known metals.
The upshot is that zinc was known by the time Marggraf made his discoveries and in fact zinc had been isolated two years earlier by another chemist, Anton von Swab. However, Marggraf's reports were exhaustive and methodical and the quality of his research cemented his reputation as the discoverer of zinc.
Before the discovery of the
zinc sulfide flotation technique,
calamine was the mineral source of zinc metal.
Foods and spices that contain the essential mineral zinc
Biological role
Zinc is an essential element in human beings, necessary for sustaining life. Deficiencies of zinc have marked effects on weight gain in animals. Zinc is found in
insulin,
zinc finger proteins, and such enzymes as
superoxide dismutase.
According to some sources, taking zinc tablets may provide some immunity against
colds and
flu, although this is disputed.
Eyesight, taste, smell and memory are also connected with zinc and a deficiency in zinc can cause malfunctions of these organs and functions.
Natural food sources of zinc include oysters, red meat and poultry, beans, nuts, whole grains, pumpkin seed or sunflower seeds.
In males, zinc is important for the production of
semen. Up to 5 mg of zinc is lost during ejaculation. Deficiencies in zinc in males can lead to reduced sperm count and sex drive. Frequent ejaculations can lead to zinc deficiency.
Abundance
Zinc is the 23rd most abundant element in the earth's crust. The most heavily mined ores tend to contain roughly 10%
iron as well as 40-50% zinc. Minerals from which zinc is extracted include
sphalerite, zinc blende,
smithsonite,
calamine, and franklinite.
Zinc Production
There are zinc mines throughout the world, with the largest producers being
Australia,
Canada,
China,
Peru and the U.S.A. Mines in
Europe include Vieille Montagne in
Belgium and Zinkgruvan in
Sweden.
Zinc metal is produced using
extractive metallurgy.
Zinc sulfide (
sphalerite) minerals are concentrated using the
froth flotation method and then purified to zinc metal using
pyrometallurgy.
Zinc oxide treatment has much fewer applications, but high grade deposits have been successful in producing zinc from zinc oxides and zinc carbonates using
hydrometallurgy.
Compounds
Zinc oxide is perhaps the best known and most widely used zinc compound, as it makes a good base for white pigments in paint. It also finds industrial use in the rubber industry, and is sold as opaque
sunscreen. A variety of other zinc compounds find use industrially, such as
zinc chloride (in deodorants), zinc sulfide (in luminescent paints), and zinc methyl in the organic laboratory. Roughly one quarter of all zinc output is consumed in the form of zinc compounds.
Isotopes
Naturally occurring zinc is composed of the 4 stable
isotopes Zn-64, Zn-66, Zn-67, and Zn-68 with 64 being the most abundant (48.6%
natural abundance). 22 radioisotopes have been characterized with the most {abundant and/or stable} being Zn-65 with a
half-life of 244.26 days, and Zn-72 with a half-life of 46.5 hours. All of the remaining radioactive isotopes have half-lives that are less than 14 hours and the majority of these have half lives that are less than 1 second. This element also has 4 meta states.
Precautions
Metallic zinc is not considered to be toxic, but there is a condition called
zinc shakes or
zinc chills that can be induced by the inhalation of freshly formed
zinc oxide. Excessive intake of zinc can promote deficiency in other dietary minerals.
References
External links
Category:Chemical elements
Category:Transition metals
ca:Zinc
cs:Zinek
cy:Sinc
da:Zink (grundstof)
de:Zink
eo:Zinko
es:Zinc
et:Tsink
fi:Sinkki
fr:Zinc
he:אבץ
id:Zink
it:Zinco
ja:亜鉛
ku:Çînko
la:Zincum
mi:Konutea
nl:Zink
nn:Sink
no:Sink
pl:Cynk
pt:Zinco
ro:Zinc
ru:Цинк
simple:Zinc
sl:Cink
sr:Цинк
sv:Zink
uk:Цинк
vi:Kẽm
zh:锌