Теллур (Te)

chemical element with symbol Te and atomic number 52

Atomic Number	52
Atomic Weight	127.6
mass number	130

Group	16
Period	5
Block	p

Протон	52 p⁺
Нейтрон	78 n⁰
Электрон	52 e^-

Physical Property

Атомдук Радиус	140 pm 242 pm
molar volume	20,5 cm³/mol
covalent radius	136 pm 128 pm 121 pm 133 pm 138 pm
Metallic Radius	137 pm 160 pm
ionic radius	221 pm 52 pm 66 pm 97 pm 43 pm 56 pm
Crystal Radius	207 pm 66 pm 80 pm 111 pm 57 pm 70 pm
Van der Waals radius	210 pm 206 pm 423 pm 206 pm 244 pm 447 pm
density	6,232 g/cm³ 5 700 kg/m³

Chemical Property

энергия

proton affinity
electron affinity	1,970876 eV/particle
ionization energy	9,00966 eV/particle 19 eV/particle 27,838 eV/particle 37,4155 eV/particle 59,25 eV/particle 69,1 eV/particle 124,201 eV/particle 143 eV/particle 167 eV/particle 191,1 eV/particle 215 eV/particle 245 eV/particle 272 eV/particle 299 eV/particle 328 eV/particle 354 eV/particle 461 eV/particle 491 eV/particle 522 eV/particle 555 eV/particle 599 eV/particle 633 eV/particle 709 eV/particle 746,12 eV/particle 1 304 eV/particle 1 377 eV/particle 1 455 eV/particle 1 538 eV/particle 1 618 eV/particle 1 707 eV/particle 1 803 eV/particle 1 889 eV/particle 1 979 eV/particle 2 066 eV/particle 2 309 eV/particle 2 386 eV/particle 2 472 eV/particle 2 552 eV/particle 2 700 eV/particle 2 788 eV/particle 2 954 eV/particle 3 041 eV/particle 7 022 eV/particle 7 243 eV/particle 7 485 eV/particle 7 714 eV/particle 8 240 eV/particle 8 499 eV/particle 8 821 eV/particle 9 040,83 eV/particle 37 196,52 eV/particle 38 177,56 eV/particle

enthalpy of vaporization	49,8 kJ/mol
enthalpy of fusion	17,91 kJ/mol
standard enthalpy of formation	196,6 kJ/mol
Электрон

electron shell	2, 8, 18, 18, 6

valence electron	6 ⓘ

electron configuration	[Kr] 4d¹⁰ 5s² 5p⁴ⓘ 1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d¹⁰ 4p⁶ 4d¹⁰ 5s² 5p⁴

oxidation number	-2, -1, 0, 1, 2, 3, 4, 5, 6
electronegativity	12,76 eV/particle 0.2056992 2.1
Electrophilicity Index	2,141210947219293 eV/particle
fundamental state of matter

phase of matter	Solid
gaseous state of matter
Boiling Point	1 261,15 K
Melting Point	722,66 K
critical pressure
critical temperature	2 329,15 K
triple point
appearance
Түс –	Silver #ff1493 #d47a00 #d47a00
appearance
refractive index	1,000991
thermodynamic material property
Thermal Conductivity	14,3 W/(m K)
thermal expansion
molar heat capacity	25,73 J/(mol K)
Specific Heat Capacity	0,202 J/(g⋅K)
heat capacity ratio
electrical properties
type	Semiconductor
electrical conductivity	0,01 MS/m
electrical resistivity	0,0001 m Ω
superconductivity
Магнетизм
type	diamagnetic
magnetic susceptibility (Mass)	-0,0000000039 m³/Kg
magnetic susceptibility (Molar)	-0,000000000498 m³/mol
magnetic susceptibility (Volume)	-0,0000243
magnetic ordering
Curie temperature
Néel temperature
түзүм
Crystal Structure	Simple Trigonal (HEX)
lattice constant	4,45 Å
Lattice Angles	π/2, π/2, 2 π/3
mechanical property
hardness	180 MPa 2,25 MPa
bulk modulus	65 GPa
shear modulus	16 GPa
Young's modulus	43 GPa
Poisson's ratio
speed of sound	2 610 m/s
classification
Category	Metalloids, Metalloids
CAS Group	VIB
IUPAC Group	VIA
Glawe Number	94
Mendeleev Number	102
Pettifor Number	92
Geochemical Class	semi-volatile
Литофиль элементтери	chalcophile

other

Gas Basicity
polarizability	38 ± 4 a₀
C6 Dispersion Coefficient	445 a₀ 471 a₀
allotrope
Neutron cross section	5,4
Neutron Mass Absorption	0,0013
Кванттык сандар	3P2
space group	152 (P3121)

Isotopes of Tellurium

Stable Isotopes	4
Unstable Isotopes	38
Natural Isotopes	8

¹⁰⁴Te

mass number	104
neutron number	52
relative atomic mass	103,946723408 ± 0,000340967 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	2018
parity	+

decay mode	intensity
α (α emission)	100%

¹⁰⁵Te

mass number	105
neutron number	53
relative atomic mass	104,943304516 ± 0,000322084 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	633 ± 66 ns
Спин	7/2
nuclear quadrupole moment
time of discovery or invention	2006
parity	+

decay mode	intensity
α (α emission)	100%

¹⁰⁶Te

mass number	106
neutron number	54
relative atomic mass	105,937498521 ± 0,000107934 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	78 ± 11 us
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1981
parity	+

decay mode	intensity
α (α emission)	100%

¹⁰⁷Te

mass number	107
neutron number	55
relative atomic mass	106,934882 ± 0,000108 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	3,22 ± 0,09 ms
Спин	5/2
nuclear quadrupole moment
time of discovery or invention	1979
parity	+

decay mode	intensity
α (α emission)	70%
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)
β⁺ p (β⁺-delayed proton emission)

¹⁰⁸Te

mass number	108
neutron number	56
relative atomic mass	107,929380469 ± 0,000005808 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	2,1 ± 0,1 s
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1974
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	51%
α (α emission)	49%
β⁺ p (β⁺-delayed proton emission)	2.4%
β⁺α (β⁺-delayed α emission)	0.065%

¹⁰⁹Te

mass number	109
neutron number	57
relative atomic mass	108,927304532 ± 0,000004704 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	4,4 ± 0,2 s
Спин	5/2
nuclear quadrupole moment
time of discovery or invention	1967
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	96.1%
α (α emission)	3.9%
β⁺ p (β⁺-delayed proton emission)	9.4%
β⁺α (β⁺-delayed α emission)	0.0049%

¹¹⁰Te

mass number	110
neutron number	58
relative atomic mass	109,922458102 ± 0,000007058 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	18,6 ± 0,8 s
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1977
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%
α (α emission)

¹¹¹Te

mass number	111
neutron number	59
relative atomic mass	110,921000587 ± 0,0000069 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	26,2 ± 0,6 s
Спин	5/2
nuclear quadrupole moment
time of discovery or invention	1967
parity

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%
β⁺ p (β⁺-delayed proton emission)

¹¹²Te

mass number	112
neutron number	60
relative atomic mass	111,916727848 ± 0,000009 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	2 ± 0,2 m
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1976
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹¹³Te

mass number	113
neutron number	61
relative atomic mass	112,915891 ± 0,00003 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	1,7 ± 0,2 m
Спин	7/2
nuclear quadrupole moment
time of discovery or invention	1974
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹¹⁴Te

mass number	114
neutron number	62
relative atomic mass	113,91208782 ± 0,000026224 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	15,2 ± 0,7 m
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1968
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹¹⁵Te

mass number	115
neutron number	63
relative atomic mass	114,911902 ± 0,00003 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	5,8 ± 0,2 m
Спин	7/2
nuclear quadrupole moment
time of discovery or invention	1961
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹¹⁶Te

mass number	116
neutron number	64
relative atomic mass	115,908465558 ± 0,000025986 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	2,49 ± 0,04 h
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1958
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹¹⁷Te

mass number	117
neutron number	65
relative atomic mass	116,908646227 ± 0,000014444 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	62 ± 2 m
Спин	1/2
nuclear quadrupole moment	0
time of discovery or invention	1958
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%
ϵ (electron capture)	75%
e⁺ (positron emission)	25%

¹¹⁸Te

mass number	118
neutron number	66
relative atomic mass	117,905860104 ± 0,000019652 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	6 ± 0,02 d
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1948
parity	+

decay mode	intensity
ϵ (electron capture)	100%

¹¹⁹Te

mass number	119
neutron number	67
relative atomic mass	118,906405699 ± 0,000007813 Da
g-factor	0,5 ± 0,1
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	16,05 ± 0,05 h
Спин	1/2
nuclear quadrupole moment	0
time of discovery or invention	1948
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%
ϵ (electron capture)	97.94%
e⁺ (positron emission)	2.06%

¹²⁰Te

mass number	120
neutron number	68
relative atomic mass	119,904065779 ± 0,00000188 Da
g-factor	0
natural abundance	0,09 ± 0,01
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1936
parity	+

decay mode	intensity
2β⁺ (double β⁺ decay)

¹²¹Te

mass number	121
neutron number	69
relative atomic mass	120,904945065 ± 0,000027734 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	19,31 ± 0,07 d
Спин	1/2
nuclear quadrupole moment	0
time of discovery or invention	1939
parity	+

decay mode	intensity
β⁺ (β⁺ decay; β⁺ = ϵ + e⁺)	100%

¹²²Te

mass number	122
neutron number	70
relative atomic mass	121,903044708 ± 0,000001456 Da
g-factor	0
natural abundance	2,55 ± 0,12
Радиоактивдүүлүк	stable isotope
half-life	Not Radioactive ☢️
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1932
parity	+

¹²³Te

mass number	123
neutron number	71
relative atomic mass	122,904271022 ± 0,000001454 Da
g-factor
natural abundance	0,89 ± 0,03
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life
Спин	1/2
nuclear quadrupole moment	0
time of discovery or invention	1932
parity	+

decay mode	intensity
ϵ (electron capture)	100%

¹²⁴Te

mass number	124
neutron number	72
relative atomic mass	123,902818341 ± 0,000001451 Da
g-factor	0
natural abundance	4,74 ± 0,14
Радиоактивдүүлүк	stable isotope
half-life	Not Radioactive ☢️
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1932
parity	+

¹²⁵Te

mass number	125
neutron number	73
relative atomic mass	124,904431178 ± 0,000001451 Da
g-factor
natural abundance	7,07 ± 0,15
Радиоактивдүүлүк	stable isotope
half-life	Not Radioactive ☢️
Спин	1/2
nuclear quadrupole moment	0
time of discovery or invention	1931
parity	+

¹²⁶Te

mass number	126
neutron number	74
relative atomic mass	125,903312144 ± 0,000001453 Da
g-factor	0
natural abundance	8,84 ± 0,25
Радиоактивдүүлүк	stable isotope
half-life	Not Radioactive ☢️
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1924
parity	+

¹²⁷Te

mass number	127
neutron number	75
relative atomic mass	126,905226993 ± 0,000001465 Da
g-factor	0,42333333333333 ± 0,0026666666666667
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	9,35 ± 0,07 h
Спин	3/2
nuclear quadrupole moment
time of discovery or invention	1938
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹²⁸Te

mass number	128
neutron number	76
relative atomic mass	127,904461237 ± 0,000000758 Da
g-factor	0
natural abundance	31,74 ± 0,08
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	2,25 ± 0,09 Yy
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1924
parity	+

decay mode	intensity
2β⁻ (double β⁻ decay)	100%

¹²⁹Te

mass number	129
neutron number	77
relative atomic mass	128,906596419 ± 0,000000763 Da
g-factor	0,468 ± 0,0026666666666667
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	69,6 ± 0,3 m
Спин	3/2
nuclear quadrupole moment	0,055 ± 0,013
time of discovery or invention	1939
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³⁰Te

mass number	130
neutron number	78
relative atomic mass	129,906222745 ± 0,000000011 Da
g-factor	0
natural abundance	34,08 ± 0,62
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	791 ± 21 Ey
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1924
parity	+

decay mode	intensity
2β⁻ (double β⁻ decay)	100%

¹³¹Te

mass number	131
neutron number	79
relative atomic mass	130,90852221 ± 0,000000065 Da
g-factor	0,464 ± 0,006
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	25 ± 0,1 m
Спин	3/2
nuclear quadrupole moment
time of discovery or invention	1939
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³²Te

mass number	132
neutron number	80
relative atomic mass	131,908546713 ± 0,000003742 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	3,204 ± 0,013 d
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1948
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³³Te

mass number	133
neutron number	81
relative atomic mass	132,91096333 ± 0,000002218 Da
g-factor	0,56666666666667 ± 0,013333333333333
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	12,5 ± 0,3 m
Спин	3/2
nuclear quadrupole moment	0,23 ± 0,09
time of discovery or invention	1940
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³⁴Te

mass number	134
neutron number	82
relative atomic mass	133,911396376 ± 0,000002948 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	41,8 ± 0,8 m
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1948
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³⁵Te

mass number	135
neutron number	83
relative atomic mass	134,916554715 ± 0,000001848 Da
g-factor	-0,19714285714286 ± 0,014285714285714
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	19 ± 0,2 s
Спин	7/2
nuclear quadrupole moment	0,29 ± 0,09
time of discovery or invention	1969
parity	-

decay mode	intensity
β⁻ (β⁻ decay)	100%

¹³⁶Te

mass number	136
neutron number	84
relative atomic mass	135,92010118 ± 0,000002448 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	17,63 ± 0,09 s
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1974
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)	1.37%

¹³⁷Te

mass number	137
neutron number	85
relative atomic mass	136,925599354 ± 0,000002254 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	2,49 ± 0,05 s
Спин	3/2
nuclear quadrupole moment
time of discovery or invention	1975
parity	-

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)	2.94%

¹³⁸Te

mass number	138
neutron number	86
relative atomic mass	137,929472452 ± 0,000004065 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	1,46 ± 0,25 s
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1975
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)	4.8%

¹³⁹Te

mass number	139
neutron number	87
relative atomic mass	138,935367191 ± 0,0000038 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	724 ± 81 ms
Спин	5/2
nuclear quadrupole moment
time of discovery or invention	1994
parity	-

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)

¹⁴⁰Te

mass number	140
neutron number	88
relative atomic mass	139,939487057 ± 0,000015434 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	351 ± 5 ms
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1994
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)

¹⁴¹Te

mass number	141
neutron number	89
relative atomic mass	140,945604 ± 0,000429 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	193 ± 16 ms
Спин	5/2
nuclear quadrupole moment
time of discovery or invention	1994
parity	-

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)
2n (2-neutron emission)

¹⁴²Te

mass number	142
neutron number	90
relative atomic mass	141,950027 ± 0,000537 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	147 ± 8 ms
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	1994
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)
2n (2-neutron emission)

¹⁴³Te

mass number	143
neutron number	91
relative atomic mass	142,956489 ± 0,000537 Da
g-factor
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	120 ± 8 ms
Спин	7/2
nuclear quadrupole moment
time of discovery or invention	2010
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)
2n (2-neutron emission)

¹⁴⁴Te

mass number	144
neutron number	92
relative atomic mass	143,961116 ± 0,000322 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life	93 ± 60 ms
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	2015
parity	+

decay mode	intensity
β⁻ (β⁻ decay)	100%
β⁻ n (β⁻-delayed neutron emission)
2n (2-neutron emission)

¹⁴⁵Te

mass number	145
neutron number	93
relative atomic mass	144,967783 ± 0,000322 Da
g-factor	0
natural abundance
Радиоактивдүүлүк	☢️ Радиоактивдүү элементтер —
half-life
Спин	0
nuclear quadrupole moment	0
time of discovery or invention	2018
parity	+

decay mode	intensity
β⁻ (β⁻ decay)
β⁻ n (β⁻-delayed neutron emission)
2n (2-neutron emission)

тарых

discoverer or inventor	Franz Müller von Reichenstein
location of discovery	Romania
time of discovery or invention	1782
Этимология	Latin: tellus (earth).
pronunciation	te-LOOR-i-em (англисче)

source

Abundance
Abundance in Earth's crust	0,001 mg/kg
natural abundance (Океан)
natural abundance (human body)
natural abundance (meteoroid)	0,00021 %
natural abundance (Күн)
Abundance in Universe	0,0000009 %

Nuclear Screening Constants

1	s	1.0432
2	p	4.14
2	s	13.6688
3	d	14.1607
3	p	17.9911
3	s	18.0019
4	d	32.04
4	p	28.878
4	s	27.5916
5	p	41.1915
5	s	39.462

Теллур on ChemicalAid

Australian Educational Vocabulary ID	scot/3582
BNCF Thesaurus ID	41689
Biblioteca Nacional de España ID	XX530277
Bibliothèque nationale de France ID	12138330x
Brockhaus Enzyklopädie online ID	te
CAB ID	266885
CAS Registry Number	13494-80-9
ChEBI ID	30452
ChemSpider ID	4885717
DSSTOX compound identifier	DTXCID7012119
DSSTox substance ID	DTXSID9032119
Den Store Danske ID	tellur
ECHA Substance Infocard ID	100.033.452
Encyclopædia Britannica Online ID	science/tellurium
Encyclopædia Universalis ID	tellure
Freebase ID	/m/025sk5w
GND ID	4184665-5
Gran Enciclopèdia Catalana ID	0145393
Great Russian Encyclopedia Online ID	4186445
HSDB ID	2532
Human Metabolome Database ID	HMDB0001854
ICSC ID	0986
InChI	InChI=1S/Te
InChIKey	PORWMNRCUJJQNO-UHFFFAOYSA-N
KBpedia ID	Tellurium
Library of Congress authority ID	sh85133642
MeSH descriptor ID	D013691
Mindat mineral ID	37792
NALT ID	55169
NDL Authority ID	00572907
NKCR AUT ID	ph126528
Namuwiki ID	텔루륨
National Library of Israel J9U ID	987007565705505171
OmegaWiki Defined Meaning	160178
Online PWN Encyclopedia ID	3986271
OpenAlex ID	C538181303
PSH ID	5809
PubChem CID	6327182
RxNorm ID	1311384
Store norske leksikon ID	tellur
Treccani ID	tellurio
UNII	NQA0O090ZJ
USGS Thesaurus ID	1589
Wolfram Language entity code	Entity["Mineral", "Tellurium"]
WordNet 3.1 Synset ID	14681407-n
YSO ID	22857
ZVG number	7520

Теллур (Te)

Physical Property

Chemical Property

other

Isotopes of Tellurium

104Te

105Te

106Te

107Te

108Te

109Te

110Te

111Te

112Te

113Te

114Te

115Te

116Te

117Te

118Te

119Te

120Te

121Te

122Te

123Te

124Te

125Te

126Te

127Te

128Te

129Te

130Te

131Te

132Te

133Te

134Te

135Te

136Te

137Te

138Te

139Te

140Te

141Te

142Te

143Te

144Te

145Te

тарых

source

Nuclear Screening Constants

¹⁰⁴Te

¹⁰⁵Te

¹⁰⁶Te

¹⁰⁷Te

¹⁰⁸Te

¹⁰⁹Te

¹¹⁰Te

¹¹¹Te

¹¹²Te

¹¹³Te

¹¹⁴Te

¹¹⁵Te

¹¹⁶Te

¹¹⁷Te

¹¹⁸Te

¹¹⁹Te

¹²⁰Te

¹²¹Te

¹²²Te

¹²³Te

¹²⁴Te

¹²⁵Te

¹²⁶Te

¹²⁷Te

¹²⁸Te

¹²⁹Te

¹³⁰Te

¹³¹Te

¹³²Te

¹³³Te

¹³⁴Te

¹³⁵Te

¹³⁶Te

¹³⁷Te

¹³⁸Te

¹³⁹Te

¹⁴⁰Te

¹⁴¹Te

¹⁴²Te

¹⁴³Te

¹⁴⁴Te

¹⁴⁵Te