CAS Number7429-91-6
PubChem CID23912
Атомен радиус178
Моларен обем19
Атомна маса162,5
Температура на кипене2 567
Bulk Modulus
Кристална структураОбикновен шестоъгълник
Ковалентен радиус192
Electrical Resistivity
Електронна конфигурация[Xe] 4f10 6s2
Електрон на обвивка2, 8, 18, 28, 8, 2
Топлина на сливането11,1
Топлина на изпаряване280
Йонизационен потенциал5,939
Magnetic Ordering
Magnetic Susceptibility
Mass Number66
Температура на топене1 407
Атомен номер163
Оксидационни държави2, 3
Poisson Ratio
Shear Modulus
Специфичен топлинен капацитет0,17
Van der Waals radius
Young's Modulus
Изобилие в земната кора0.00062%
Изобилие в вселената2×10-7%
Dy Диспросий 66 162.5 6 f 66 1412.0 2567.0 [Xe] 4f10 6s2 2 8 18 28 8 2 8.55 0.00062% Silver Hexagonal 1.2 {"1":"573.0","2":"1130","3":"2200","4":"3990"} 573 50 3 1.8 19.0 230.0 0.173 10.7 178.K 0 Solid, Paramagnetic, Conductor, Lanthanide, Stable, Natural dis-PRO-si-em Soft, lustrous, silvery metal. Its uses are limited to the experimental and esoteric. Usually found with erbium, holmium and other rare earths in some minerals such as monazite sand, which is often 50% rare earth by weight. hFfR_qOSa-8 Dysprosium
Tellurium was discovered in Transylvania in 1782 by Franz-Joseph Müller von Reichenstein in a mineral containing tellurium and gold.

In 1789, another Hungarian scientist, Pál Kitaibel, also discovered the element independently in an ore from Deutsch-Pilsen which had been regarded as argentiferous molybdenite.

In 1798, it was named by Martin Heinrich Klaproth who earlier isolated it from the mineral calaverite. From the Latin word tellus, earth 66 1886 Paul Emile Lecoq de Boisbaudran France From the Greek word "dysprositos" meaning "hard to obtain"

Isotopes of Tellurium

Standard Atomic Weight


Стабилни изотопи

156Dy 158Dy 160Dy 161Dy 162Dy 163Dy 164Dy

Нестабилни изотопи

138Dy 139Dy 140Dy 141Dy 142Dy 143Dy 144Dy 145Dy 146Dy 147Dy 148Dy 149Dy 150Dy 151Dy 152Dy 153Dy 154Dy 155Dy 157Dy 159Dy 165Dy 166Dy 167Dy 168Dy 169Dy 170Dy 171Dy 172Dy 173Dy

Tellurium and tellurium compounds are considered to be mildly toxic
In air, tellurium burns with a greenish-blue flames, forming the dioxide
The primary use of tellurium is in alloys, foremost in steel and copper to improve machinability.

Tellurium is used as a basic ingredient in blasting caps, and is added to cast iron for chill control.

It is used in vulcanizing rubber and in catalysts for petroleum cracking.

Tellurium is used as a coloring agent in ceramics.