Vanadium

Vanadium
Vanadium block | Image: Learnool

Vanadium (V) is a chemical element of the periodic table, located in the group 5 and the period 4, and has the atomic number 23. It is a hard, malleable, silvery-grey transition metal, which is named after “Vanadis”, the Scandinavian goddess Freyja. It is the 20th most abundant element on earth.

On periodic table

group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
period
1 1
H
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Hydrogen
2
He
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Helium
2 3
Li
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Lithium
4
Be
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Beryllium
5
B
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Boron
6
C
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Carbon
7
N
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Nitrogen
8
O
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Oxygen
9
F
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Fluorine
10
Ne
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Neon
3 11
Na
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Sodium
12
Mg
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Magnesium
13
Al
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Aluminium
14
Si
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Silicon
15
P
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Phosphorus
16
S
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Sulfur
17
Cl
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Chlorine
18
Ar
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Argon
4 19
K
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Potassium
20
Ca
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Calcium
21
Sc
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Scandium
22
Ti
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Titanium
23
V
Vanadium
24
Cr
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Chromium
25
Mn
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Manganese
26
Fe
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Iron
27
Co
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Cobalt
28
Ni
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Nickel
29
Cu
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Copper
30
Zn
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Zinc
31
Ga
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Gallium
32
Ge
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Germanium
33
As
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Arsenic
34
Se
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Selenium
35
Br
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Bromine
36
Kr
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Krypton
5 37
Rb
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Rubidium
38
Sr
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Strontium
39
Y
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Yttrium
40
Zr
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Zirconium
41
Nb
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Niobium
42
Mo
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Molybdenum
43
Tc
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Technetium
44
Ru
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Ruthenium
45
Rh
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Rhodium
46
Pd
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Palladium
47
Ag
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Silver
48
Cd
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Cadmium
49
In
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Indium
50
Sn
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Tin
51
Sb
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Antimony
52
Te
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Tellurium
53
I
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Iodine
54
Xe
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Xenon
6 55
Cs
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Caesium
56
Ba
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Barium
72
Hf
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Hafnium
73
Ta
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Tantalum
74
W
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Tungsten
75
Re
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Rhenium
76
Os
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Osmium
77
Ir
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Iridium
78
Pt
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Platinum
79
Au
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Gold
80
Hg
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Mercury
81
Tl
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Thallium
82
Pb
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Lead
83
Bi
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Bismuth
84
Po
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Polonium
85
At
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Astatine
86
Rn
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Radon
7 87
Fr
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Francium
88
Ra
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Radium
104
Rf
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Rutherfordium
105
Db
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Dubnium
106
Sg
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Seaborgium
107
Bh
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Bohrium
108
Hs
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Hassium
109
Mt
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Meitnerium
110
Ds
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Darmstadtium
111
Rg
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Roentgenium
112
Cn
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Copernicium
113
Nh
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Nihonium
114
Fl
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Flerovium
115
Mc
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Moscovium
116
Lv
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Livermorium
117
Ts
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Tennessine
118
Og
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Oganesson
57
La
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Lanthanum
58
Ce
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Cerium
59
Pr
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Praseodymium
60
Nd
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Neodymium
61
Pm
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Promethium
62
Sm
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Samarium
63
Eu
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Europium
64
Gd
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Gadolinium
65
Tb
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Terbium
66
Dy
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Dysprosium
67
Ho
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Holmium
68
Er
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Erbium
69
Tm
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Thulium
70
Yb
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Ytterbium
71
Lu
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Lutetium
89
Ac
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Actinium
90
Th
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Thorium
91
Pa
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Protactinium
92
U
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Uranium
93
Np
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Neptunium
94
Pu
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Plutonium
95
Am
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Americium
96
Cm
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Curium
97
Bk
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Berkelium
98
Cf
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Californium
99
Es
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Einsteinium
100
Fm
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Fermium
101
Md
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Mendelevium
102
No
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Nobelium
103
Lr
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Lawrencium
– d block

Vanadium is a d-block element, situated in the fifth column and the fourth row of the periodic table, denoted by the atomic number 23 and chemical symbol V.

Element information

Vanadium Element
Vanadium appearance | Image: Wikipedia
Vanadium Periodic Table
Vanadium location on periodic table | Image: Learnool
Vanadium is found in the fifth column of the periodic table, next to the titanium element.
Origin of name named after Vanadis, old Norse name for the Scandinavian goddess Freyja
Symbol V
Atomic number (Z) 23
Atomic mass 50.9415 u
Block d-block
Group 5
Period 4
Classification Transition metal
Atomic radius 134 pm
Covalent radius 153±8 pm
Melting point 1910 ℃, 3470 ℉, 2183 K
Boiling point 3407 ℃, 6165 ℉, 3680 K
Electron configuration [Ar] 3d3 4s2
Learn how to write: Vanadium electron configuration
Electrons per shell 2, 8, 11, 2
Learn how to draw: Vanadium Bohr model
Crystal structure Body-centered cubic (bcc)
Phase at r.t Solid
Density near r.t 6.11 g/cm3
Main isotopes Vanadium-51
Natural occurrence Primordial
Oxidation state +2, +3, +4, +5
Electronegativity (Pauling scale) 1.63
Protons
Neutrons
Electrons
23
28
23
Learn how to find: Vanadium protons neutrons electrons
CAS number 7440-62-2
Discovered by Andrés Manuel del Río in 1801

History

Andrés Manuel del Río | Image: Wikipedia

Vanadium was discovered by the Spanish mineralogist Andrés Manuel del Río in 1801. He initially named it “panchromium,” but later realized that it was identical to a previously discovered element called “chromium.” The element was rediscovered in 1830 by the Swedish chemist Nils Gabriel Sefström while analyzing samples of iron ore from the Swedish county of Värmland. Sefström named the element after the goddess of beauty and fertility, Vanadis, from Norse mythology. Vanadium was isolated in metallic form in 1867 by Sir Henry Enfield Roscoe, who reduced vanadium pentoxide with hydrogen gas.

Vanadium has been used in various applications throughout history. In the early 20th century, vanadium was used in the production of high-quality steel alloys, including those used in the construction of the Ford Model T. During World War Ⅰ, vanadium was used in the production of armor plate and other military equipment. Today, vanadium is used in the production of a wide range of products, including steel, titanium alloys, and vanadium redox flow batteries.

Occurrence and production

Vanadium is found in over 65 minerals, including vanadinite, patronite, carnotite, and roscoelite. It is also found in crude oil, tar sands, and many types of coal. The metal is most commonly produced as a by-product of steelmaking, where iron ore is purified with coke and limestone in a blast furnace, and vanadium is collected in the form of an alloy called ferrovanadium. Vanadium can also be extracted from other sources, such as uranium ore, phosphate rock, and shale oil.

The majority of vanadium is produced from the processing of various iron ores, including magnetite (Fe3O4), hematite (Fe2O3), and ilmenite (FeTiO3). During the production of steel, small amounts of vanadium are added to improve the strength and toughness of the resulting alloy. This vanadium is typically recovered from the slag generated during the steelmaking process.

Another major source of vanadium is from the processing of petroleum residues, such as crude oil, tar sands, and bitumen. These materials contain trace amounts of vanadium, which can be extracted using a variety of techniques, including pyrometallurgical and hydrometallurgical processes. Pyrometallurgical processes involve heating the materials to high temperatures in the presence of oxygen, while hydrometallurgical processes use chemicals to dissolve the vanadium and separate it from other elements.

In recent years, new sources of vanadium have been explored, such as the extraction of vanadium from vanadium-bearing shale and the recovery of vanadium from fly ash generated by coal-fired power plants. These methods are still in the experimental stage and have yet to become commercially viable.

Properties

Physical properties

Vanadium is a silvery-gray, ductile metal with good corrosion resistance.

It has a relatively high melting point of 1910 ℃ and boiling point of 3407 ℃.

Vanadium has a density of 6.11 g/cm3, making it one of the densest transition metals.

Chemical properties

Vanadium is a reactive metal and readily forms compounds with a wide range of elements.

It has multiple oxidation states, with the most common ones being +2, +3, +4, and +5.

Vanadium forms many important compounds, including vanadium pentoxide (V2O5) and various vanadate salts.

Biological properties

Vanadium is an essential trace element for some organisms, including some species of bacteria and algae.

It has been shown to have insulin-mimetic properties and may play a role in glucose metabolism.

Vanadium can also be toxic at high concentrations and has been associated with certain health risks.

Applications

Steel production

Vanadium is primarily used as an alloying element in the production of high-strength steel. It is added to steel in small amounts to improve its strength, toughness, and resistance to corrosion and wear.

Energy storage

Vanadium is used in the production of vanadium redox batteries, which are a type of rechargeable flow battery used for large-scale energy storage. These batteries are used in renewable energy systems, grid energy storage, and other applications where large amounts of energy need to be stored and released.

Aerospace

Vanadium is used in the aerospace industry for its high strength-to-weight ratio and resistance to corrosion. It is used in the production of aircraft parts, such as landing gear, jet engines, and airframe components.

Chemicals

Vanadium is used in the production of various chemicals, including sulfuric acid, phthalic anhydride, and maleic anhydride. It is also used as a catalyst in the production of ethylene and other petrochemicals.

Medical

Vanadium has been found to have potential medical applications, including as an insulin mimetic and in the treatment of diabetes. It is also being studied for its potential anti-cancer properties.

Interesting facts

Vanadium has one stable isotope 51V and several radioactive isotopes.

Vanadium is a hard, silvery-gray metal that is used as an alloying element in steel and titanium alloys.

Vanadium has the ability to form compounds with a wide range of oxidation states, which makes it useful in the production of catalysts and pigments.

Vanadium is named after the Norse goddess Vanadis, who was known for her beauty and fertility.

Vanadium was used in the Manhattan Project to produce a high-strength alloy that was used in nuclear reactors.

Vanadium has been found to have potential medicinal properties, such as anti-tumor and anti-diabetic effects.

Vanadium dioxide is a material that exhibits a unique behavior known as a metal-insulator transition, which makes it useful in electronic devices.

Vanadium redox flow batteries are a type of rechargeable battery that uses vanadium ions to store energy.

Vanadium has been detected in the atmosphere of both Mars and Venus.

Related

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.

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