Niobium (Nb)

Stable Isotopes of Niobium

Isotope Z(p) N(n) Atomic Mass Natural Abundance Nuclear Spin
Nb-93  41  52  92.906376 100%  9/2+ 

Nb

Niobium was discovered in 1801 by Charles Hatchett. Its name comes from the Greek name Niobe, meaning “daughter of Tantalus” (tantalum is closely related to niobium in the periodic table of elements). Because the niobium was discovered in an ore called columbite, it was known temporarily as columbium.

Niobium, a gray or silvery soft metal, is ductile and very malleable at room temperature and does not tarnish or oxidize at room temperature. It only reacts with oxygen and halogens when heated. It is less corrosion-resistant than tantalum is at high temperatures. Niobium is not attacked by nitric acid up to 100 °C but is vigorously attacked by the mixture of nitric and hydrofluoric acids. It is unaffected at room temperature by most acids and by aqua regia. It is attacked by alkaline solutions, to some extent, at all temperatures. Niobium becomes a superconductor at 9.15 °K. It is insoluble in water, hydrochloric acid, nitric acid and aqua regia; soluble in hydrofluoric acid; and soluble in fused alkali hydroxide.

At ordinary temperatures niobium does not react with most chemicals; however, the metal is slowly attacked by hydrofluoric acid and dissolves and is attacked by hydrogen fluoride and fluorine gases, forming niobium pentafluoride. Niobium is oxidized by air at 350 ºC, first forming a pale yellow oxide film of increasing thickness, which changes its color to blue. On further heating to 400 ºC, it converts to a black film of niobium dioxide. It absorbs nitrogen, similarly to hydrogen, forming an interstitial solid solution. The reaction is exothermic, and the composition of such intersitital solid solution varies with the temperature. Niobium combines with carbon, boron, silicon and other elements at very high temperatures, forming interstitial binary compounds of varying compositions.

Niobium is a very important metal in both ferrous and nonferrous metallurgies. As an additive to alloys, or when alloyed with other metals, niobium imparts high mechanical strength, electrical conductivity and ductility. It enhances the corrosion resistance of most alloys. The metal and several of its alloys exhibit superconductivity. Niobium is used as an additive in the manufacture of most high-strength, low-alloy carbon steels, as well as microalloyed steels used in the construction of oil and gas pipelines, bridges, buildings, automobiles and concrete bars. Other applications of niobium are in electronic and propulsion devices, electrodes, catalysis, vacuum tubes and high-pressure sodium vapor lamps.

Properties of Niobium

Name Niobium
Symbol Nb
Atomic number 41
Atomic weight 92.906 
Standard state Solid at 298 °K 
CAS Registry ID 7440-03-1 
Group in periodic table
Group name None 
Period in periodic table
Block in periodic table d-block 
Color Gray metallic 
Classification Metallic 
Melting point 2468 °C
Boiling point 4742 °C
Thermal conductivity 53.7 W/(m·K) at 298.2 °K
Electrical resistivity 12.5 µΩ·cm at 0 °C 
Electronegativity 1.6 
Specific heat 0.27 kJ/kg K 
Heat of vaporization 689.9 kJ·mol-1
Heat of fusion 26.8 kJ·mol-1
Density of solid 8.57 g/cm3 
Electron configuration  [Kr]4d45s
Atomic radius 1.47 Å 
Ionic radius Nb5+: 0.68 Å
Atomic volume 10.8 cm3/mol
Oxidation states  +3, +4, +5 
Most common oxidation state  +5

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