Cobalt

Cobalt (Co) is a chemical element of the periodic table, located in the group 9 and the period 4, and is having the atomic number 27. It is a hard, lustrous, silvery-grey transition metal, whose name comes from the German word “kobald”, which means goblin.

Contents

On periodic table

group

⇨

period

⇩

1

Hydrogen

2

Helium

3

Lithium

4

Beryllium

5

Boron

6

Carbon

7

Nitrogen

8

Oxygen

9

Fluorine

10

Neon

11

Sodium

12

Magnesium

13

Aluminium

14

Silicon

15

Phosphorus

16

Sulfur

17

Chlorine

18

Argon

19

Potassium

20

Calcium

21

Scandium

22

Titanium

23

Vanadium

24

Chromium

25

Manganese

26

Iron

27
Co
Cobalt

28

Nickel

29

Copper

30

Zinc

31

Gallium

32

Germanium

33

Arsenic

34

Selenium

35

Bromine

36

Krypton

37

Rubidium

38

Strontium

39

Yttrium

40

Zirconium

41

Niobium

42

Molybdenum

43

Technetium

44

Ruthenium

45

Rhodium

46

Palladium

47

Silver

48

Cadmium

49

Indium

50

Tin

51

Antimony

52

Tellurium

53

Iodine

54

Xenon

55

Caesium

56

Barium

72

Hafnium

73

Tantalum

74

Tungsten

75

Rhenium

76

Osmium

77

Iridium

78

Platinum

79

Gold

80

Mercury

81

Thallium

82

Lead

83

Bismuth

84

Polonium

85

Astatine

86

Radon

87

Francium

88

Radium

104

Rutherfordium

105

Dubnium

106

Seaborgium

107

Bohrium

108

Hassium

109

Meitnerium

110

Darmstadtium

111

Roentgenium

112

Copernicium

113

Nihonium

114

Flerovium

115

Moscovium

116

Livermorium

117

Tennessine

118

Oganesson

57

Lanthanum

58

Cerium

59

Praseodymium

60

Neodymium

61

Promethium

62

Samarium

63

Europium

64

Gadolinium

65

Terbium

66

Dysprosium

67

Holmium

68

Erbium

69

Thulium

70

Ytterbium

71

Lutetium

89

Actinium

90

Thorium

91

Protactinium

92

Uranium

93

Neptunium

94

Plutonium

95

Americium

96

Curium

97

Berkelium

98

Californium

99

Einsteinium

100

Fermium

101

Mendelevium

102

Nobelium

103

Lawrencium

– d block

Cobalt is a d-block element, situated in the ninth column and the fourth row of the periodic table, denoted by the atomic number 27 and chemical symbol Co.

Element information

Cobalt appearance \| Image: Wikipedia
Cobalt location on periodic table \| Image: Learnool Cobalt is found in the ninth column of the periodic table, next to the iron element.
Origin of name	German word “kobald” (which means goblin)
Symbol	Co
Atomic number (Z)	27
Atomic mass	58.933195 u
Block	d-block
Group	9
Period	4
Classification	Transition metal
Atomic radius	125 pm
Covalent radius	Low spin: 126±3 pm High spin: 150±7 pm
Melting point	1495 ℃, 2723 ℉, 1768 K
Boiling point	2927 ℃, 5301 ℉, 3200 K
Electron configuration	[Ar] 3d⁷ 4s²
Electrons per shell	2, 8, 15, 2
Learn how to draw: Cobalt Bohr model
Crystal structure	Hexagonal close-packed (hcp)
Phase at r.t	Solid
Density near r.t	8.90 g/cm³
Main isotopes	Cobalt-59
Natural occurrence	Primordial
Oxidation state	+2, +3
Electronegativity (Pauling scale)	1.88
Protons Neutrons Electrons	27 32 27
Learn how to find: Cobalt protons neutrons electrons
CAS number	7440-48-4
Discovered by	Georg Brandt in 1735

History

Cobalt was first discovered in 1735 by the Swedish chemist Georg Brandt. Brandt was studying the properties of the mineral “smalt,” which was used as a blue pigment in glass and ceramics.

He discovered that smalt contained a new element, which he named “cobalt” after the German word “kobold,” which means “goblin” or “evil spirit.” This name was given to cobalt because it was often found with arsenic, which was known to be poisonous.

After its discovery, cobalt was primarily used as a blue pigment in glass and ceramics. The use of cobalt in alloys was not discovered until the 18^th century when it was found that adding cobalt to steel increased its strength and toughness.

This led to the development of cobalt-based alloys, which are still used today in a wide range of applications, from aircraft engines to dental implants.

Occurrence and production

Cobalt is a relatively rare element that is typically found in association with other metals, particularly nickel and copper. The most important ores of cobalt are cobaltite (CoAsS) and erythrite [Co₃(AsO₄)₂ · 8H₂O], but it can also be found in other minerals such as pentlandite and pyrite.

The majority of the world’s cobalt is mined in the Democratic Republic of Congo (DRC), which is responsible for about 70% of global production. Other significant producers of cobalt include Russia, Australia, and Canada.

Cobalt production typically involves mining and processing the ores to extract the metal. In the DRC, much of the cobalt is mined by artisanal miners, who work with rudimentary tools and often use child labor. This has led to growing concerns over the ethical and environmental impacts of cobalt mining.

Once the cobalt is extracted from the ore, it can be refined through a variety of processes, including roasting, leaching, and electrolysis. The resulting cobalt can be used in a wide range of applications, including batteries, magnets, and alloys.

The increasing demand for cobalt in industries such as electric vehicles and renewable energy has led to efforts to increase the efficiency and sustainability of cobalt production, as well as to reduce the environmental and social impacts of mining.

Properties

Cobalt is a hard, lustrous, silver-gray metal that belongs to the transition metal group of elements.

It has a melting point of 1495 ℃ and a boiling point of 2927 ℃.

Cobalt has a density of 8.90 grams per cubic centimeter, which is similar to that of iron and nickel.

It is a ferromagnetic metal, which means that it is strongly attracted to magnets.

Cobalt has a high magnetic permeability, which makes it useful in the production of magnetic alloys and magnets.

It is relatively resistant to corrosion and oxidation, which makes it useful in a variety of industrial applications.

Cobalt can form a variety of compounds, including cobalt oxide, cobalt chloride, and cobalt sulfate.

It is an essential trace element in the human diet, playing a role in the production of red blood cells.

Cobalt has been found to have some toxic effects, particularly in high doses, and is classified as a possible human carcinogen by the International Agency for Research on Cancer.

Applications

Alloys

Cobalt is commonly used as an alloying element in the production of high-strength and corrosion-resistant alloys.

It is often alloyed with other metals such as nickel, chromium, and tungsten to create alloys with unique properties. For example, cobalt-chromium alloys are commonly used in dental implants and prosthetics due to their biocompatibility and corrosion resistance.

Batteries

Cobalt is an essential component of lithium-ion batteries, which are used in a variety of electronic devices such as smartphones, laptops, and electric vehicles. The high energy density and long cycle life of these batteries are due in part to the use of cobalt-containing cathodes.

Catalysts

Cobalt compounds are used as catalysts in a variety of industrial processes. For example, cobalt oxide is used as a catalyst in the production of ammonia, while cobalt-containing catalysts are used in the petroleum refining industry to remove sulfur and other impurities from fuels.

Pigments

Cobalt is used as a pigment in the production of blue and green ceramics, glass, and paints. Cobalt blue, one of the most famous pigments, has been used since ancient times.

Magnetic materials

Cobalt is a ferromagnetic metal and is used in the production of magnetic alloys and magnets. These materials are used in a variety of applications, including electric motors, generators, and magnetic data storage devices.

Medical applications

Cobalt is used in medical applications, such as in radiation therapy for cancer treatment and as a tracer in medical imaging studies.

Interesting facts

The name cobalt comes from the German word “kobold,” meaning “goblin” or “evil spirit,” as miners in the Middle Ages believed cobalt ore was poisonous and was the work of these supernatural creatures.

Cobalt is the first element to be discovered solely through the use of spectroscopy. Swedish chemist Georg Brandt identified cobalt in 1735 by examining its unique spectral lines.

Cobalt is a rare element and makes up only about 0.0029% of the Earth’s crust.

The blue color of the pigment cobalt blue is due to the presence of cobalt ions in the chemical compound cobalt aluminate.

Cobalt has a high melting point of 1495 ℃ (2723 ℉) and is one of the few elements that is ferromagnetic at room temperature.

The use of cobalt-60, a radioactive isotope of cobalt, in radiation therapy has saved countless lives in the treatment of cancer.

In the 1930s, a team of researchers at General Motors discovered that adding small amounts of cobalt to tungsten carbide created an extremely hard and wear-resistant material that would revolutionize the cutting tool industry.

Cobalt is an essential component of the vitamin B12 molecule, which is necessary for the formation of red blood cells and the proper functioning of the nervous system.

Cobalt is used in the production of blue glass, which was used in ancient civilizations such as Egypt and Persia.

The largest producer of cobalt is the Democratic Republic of Congo, which supplies about 60% of the world’s cobalt. However, the mining and production of cobalt in this region has been criticized for ethical and environmental concerns.

Periodic table

More elements

s block	p block	d block	f block
Barium	Aluminium	Bohrium	Actinium
Beryllium	Antimony	Cadmium	Americium
Caesium	Argon	Chromium	Berkelium
Calcium	Arsenic	Cobalt	Californium
Francium	Astatine	Copernicium	Cerium
Helium	Bismuth	Copper	Curium
Hydrogen	Boron	Darmstadtium	Dysprosium
Lithium	Bromine	Dubnium	Einsteinium
Magnesium	Carbon	Gold	Erbium
Potassium	Chlorine	Hafnium	Europium
Radium	Flerovium	Hassium	Fermium
Rubidium	Fluorine	Iridium	Gadolinium
Sodium	Gallium	Iron	Holmium
Strontium	Germanium	Lawrencium	Lanthanum
	Indium	Lutetium	Mendelevium
	Iodine	Manganese	Neodymium
	Krypton	Meitnerium	Neptunium
	Lead	Mercury	Nobelium
	Livermorium	Molybdenum	Plutonium
	Moscovium	Nickel	Praseodymium
	Neon	Niobium	Promethium
	Nihonium	Osmium	Protactinium
	Nitrogen	Palladium	Samarium
	Oganesson	Platinum	Terbium
	Oxygen	Rhenium	Thorium
	Phosphorus	Rhodium	Thulium
	Polonium	Roentgenium	Uranium
	Radon	Ruthenium	Ytterbium
	Selenium	Rutherfordium
	Silicon	Scandium
	Sulfur	Seaborgium
	Tellurium	Silver
	Tennessine	Tantalum
	Thallium	Technetium
	Tin	Titanium
	Xenon	Tungsten
		Vanadium
		Yttrium
		Zinc
		Zirconium

External links

Deep

Learnool.com was founded by Deep Rana, who is a mechanical engineer by profession and a blogger by passion. He has a good conceptual knowledge on different educational topics and he provides the same on this website. He loves to learn something new everyday and believes that the best utilization of free time is developing a new skill.