Difference between revisions of "Nickel"
(Created page with "{{stub}} '''Nickel''' is a transition metal with the symbol Ni and atomic number 28. It is well-known as a coinage material due to its corrosion resistance, and is often u...") |
|||
Line 1: | Line 1: | ||
{{stub}} | {{stub}} | ||
'''Nickel''' is a [[transition metal]] with the symbol Ni and atomic number 28. It is well-known as a coinage material due to its corrosion resistance, and is often used to [[Nickel plating|plate objects]]. In solution, it has extensive [[coordination complex|coordination chemistry]], and some interesting [[Redox reaction|redox chemistry]] which is not commonly seen. | '''Nickel''' is a [[transition metal]] with the symbol Ni and atomic number 28. It is well-known as a coinage material due to its corrosion resistance, and is often used to [[Nickel plating|plate objects]]. In solution, it has extensive [[coordination complex|coordination chemistry]], and some interesting [[Redox reaction|redox chemistry]] which is not commonly seen. | ||
+ | |||
==Properties== | ==Properties== | ||
===Physical properties=== | ===Physical properties=== | ||
Nickel is a silvery-white metal that has a slight yellowish tinge. It is one of four elements that is [[Ferromagnetism|ferromagnetic]] at or near room temperature ([[iron]], [[cobalt]], and [[gadolinium]] being the others). Its [[Curie point|Curie temperature]] is 355 °C, which causes the metal to reversibly become [[paramagnetism|paramagnetic]]. It is hard yet ductile. | Nickel is a silvery-white metal that has a slight yellowish tinge. It is one of four elements that is [[Ferromagnetism|ferromagnetic]] at or near room temperature ([[iron]], [[cobalt]], and [[gadolinium]] being the others). Its [[Curie point|Curie temperature]] is 355 °C, which causes the metal to reversibly become [[paramagnetism|paramagnetic]]. It is hard yet ductile. | ||
+ | |||
===Chemical properties=== | ===Chemical properties=== | ||
Much of nickel's chemical resistance owes to its [[Passivation|passivation]] in air. It will also passivate in the presence of [[fluorine]], making it an ideal material for handling and storing the gas. It will dissolve only slowly in [[Hydrochloric acid|hydrochloric]] and [[sulfuric acid]]s. In concentrated [[nitric acid]], nickel will not dissolve, but it will dissolve in dilute nitric acid. | Much of nickel's chemical resistance owes to its [[Passivation|passivation]] in air. It will also passivate in the presence of [[fluorine]], making it an ideal material for handling and storing the gas. It will dissolve only slowly in [[Hydrochloric acid|hydrochloric]] and [[sulfuric acid]]s. In concentrated [[nitric acid]], nickel will not dissolve, but it will dissolve in dilute nitric acid. | ||
Nickel(II) compounds form a hexaaqua complex in water with the formula [Ni(H<sub>2</sub>O)<sub>6</sub>]<sup>2+</sup> and coordinate to many different [[Ligand|ligands]], including [[chloride]], [[ammonia]], and [[ethylenediamine]]. These complexes can be hexacoordinate, tetragonal, or square planar, with square planar complexes such as [[tetrachloronickelate]] being [[Diamagnetism|diamagnetic]] rather than paramagnetic. | Nickel(II) compounds form a hexaaqua complex in water with the formula [Ni(H<sub>2</sub>O)<sub>6</sub>]<sup>2+</sup> and coordinate to many different [[Ligand|ligands]], including [[chloride]], [[ammonia]], and [[ethylenediamine]]. These complexes can be hexacoordinate, tetragonal, or square planar, with square planar complexes such as [[tetrachloronickelate]] being [[Diamagnetism|diamagnetic]] rather than paramagnetic. | ||
+ | |||
==Availability== | ==Availability== | ||
Nickel is present as the main material in older Canadian nickels. It is also present in US nickels, dimes, and quarters, however, the majority of the metal is [[copper]], with nickel making up anywhere from 9% to 25% of the coin. Destroying coins is illegal however, and heavy fines exist everywhere for breaking this law. | Nickel is present as the main material in older Canadian nickels. It is also present in US nickels, dimes, and quarters, however, the majority of the metal is [[copper]], with nickel making up anywhere from 9% to 25% of the coin. Destroying coins is illegal however, and heavy fines exist everywhere for breaking this law. | ||
+ | |||
+ | A good source of nickel is Mu-metal, an alloy containing 77-80% nickel, 16% iron, 5-2% copper and molybdenum. This alloy compounds the brackets of hard drive magnets, which can be extracted from old hard disks. Old submarine cables also contain MU-metal wiring. Cathod tubes are also a source. Chemical extraction is required to separate the nickel. | ||
Nickel strips for electroplating can be bought from [http://unitednuclear.com/index.php?main_page=product_info&cPath=16_17_69&products_id=168 United Nuclear]. | Nickel strips for electroplating can be bought from [http://unitednuclear.com/index.php?main_page=product_info&cPath=16_17_69&products_id=168 United Nuclear]. | ||
+ | |||
==Projects== | ==Projects== | ||
*[[Nickel plating]] | *[[Nickel plating]] | ||
*Coordination complexes | *Coordination complexes | ||
*Building a battery | *Building a battery | ||
− | ==Safety== | + | *Make [[Raney nickel]] |
+ | |||
+ | ==Handling== | ||
+ | ===Safety=== | ||
Nickel compounds are known to be carcinogens, and are grouped as class 1. Nickel metal is grouped as class 2B (it is a suspected carcinogen). However, it is not regulated by OSHA. | Nickel compounds are known to be carcinogens, and are grouped as class 1. Nickel metal is grouped as class 2B (it is a suspected carcinogen). However, it is not regulated by OSHA. | ||
Some people are allergic to nickel metal and develop an itch or rash when exposed to it (contact dermatitis). If this occurs, wear gloves when handling the metal. | Some people are allergic to nickel metal and develop an itch or rash when exposed to it (contact dermatitis). If this occurs, wear gloves when handling the metal. | ||
+ | |||
+ | ===Storage=== | ||
+ | No special storage is required for bulk nickel. Nickel powder must be stored in closed bottles, away from any ignition source. | ||
+ | |||
+ | ===Disposal=== | ||
+ | Nickel and its compounds should be taken t disposal facilities. | ||
+ | |||
==References== | ==References== | ||
+ | ===Relevant Sciencemadness threads=== | ||
+ | |||
[[Category:Elements]] | [[Category:Elements]] | ||
[[Category:Metals]] | [[Category:Metals]] |
Revision as of 11:18, 29 August 2015
This article is a stub. Please help Sciencemadness Wiki by expanding it, adding pictures, and improving existing text.
|
Nickel is a transition metal with the symbol Ni and atomic number 28. It is well-known as a coinage material due to its corrosion resistance, and is often used to plate objects. In solution, it has extensive coordination chemistry, and some interesting redox chemistry which is not commonly seen.
Contents
Properties
Physical properties
Nickel is a silvery-white metal that has a slight yellowish tinge. It is one of four elements that is ferromagnetic at or near room temperature (iron, cobalt, and gadolinium being the others). Its Curie temperature is 355 °C, which causes the metal to reversibly become paramagnetic. It is hard yet ductile.
Chemical properties
Much of nickel's chemical resistance owes to its passivation in air. It will also passivate in the presence of fluorine, making it an ideal material for handling and storing the gas. It will dissolve only slowly in hydrochloric and sulfuric acids. In concentrated nitric acid, nickel will not dissolve, but it will dissolve in dilute nitric acid.
Nickel(II) compounds form a hexaaqua complex in water with the formula [Ni(H2O)6]2+ and coordinate to many different ligands, including chloride, ammonia, and ethylenediamine. These complexes can be hexacoordinate, tetragonal, or square planar, with square planar complexes such as tetrachloronickelate being diamagnetic rather than paramagnetic.
Availability
Nickel is present as the main material in older Canadian nickels. It is also present in US nickels, dimes, and quarters, however, the majority of the metal is copper, with nickel making up anywhere from 9% to 25% of the coin. Destroying coins is illegal however, and heavy fines exist everywhere for breaking this law.
A good source of nickel is Mu-metal, an alloy containing 77-80% nickel, 16% iron, 5-2% copper and molybdenum. This alloy compounds the brackets of hard drive magnets, which can be extracted from old hard disks. Old submarine cables also contain MU-metal wiring. Cathod tubes are also a source. Chemical extraction is required to separate the nickel.
Nickel strips for electroplating can be bought from United Nuclear.
Projects
- Nickel plating
- Coordination complexes
- Building a battery
- Make Raney nickel
Handling
Safety
Nickel compounds are known to be carcinogens, and are grouped as class 1. Nickel metal is grouped as class 2B (it is a suspected carcinogen). However, it is not regulated by OSHA.
Some people are allergic to nickel metal and develop an itch or rash when exposed to it (contact dermatitis). If this occurs, wear gloves when handling the metal.
Storage
No special storage is required for bulk nickel. Nickel powder must be stored in closed bottles, away from any ignition source.
Disposal
Nickel and its compounds should be taken t disposal facilities.