Samarium-152 Isotope Information and Examples of Enriched Samarium-152 Applications:

Samarium-152 isotope (Sm-152 isotope, 152Sm isotope)

  • Samarium-152 isotope is used for Samarium-153 radionuclide (radioisotope) production (can be used in life science for healthcare and medical applications and pharmaceuticals industries);
  • Samarium-152 isotope is used for research in nuclear physics;

Samarium-152 isotope is available to order from BuyIsotope.com in Samarium-152 oxide chemical form. Please contact us via request a Samarium-152 quote BuyIsotope.com to order Samarium-152 isotope to get Samarium-152 price to buy Samarium-152 isotope.

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Samarium-152 oxide Safety Data Sheet (SDS) - Download pdf file
Download Samarium-152 oxide SDS

Properties Of Samarium-152 Isotope:

PropertySAMARIUM-152
Neutron Number (N)90
Atomic Number / Proton Number (Z)62
Mass Number / Nucleon Number (A)152
Natural Abundance (%)0.2674
Atomic Mass (Da)151.91974
Relative Isotopic Mass151.91974
Spin0
Quadrupole Moment0
g-factor (g value)0
Half-life
Group
Period6
Electron Configuration Blockf
Melting Point (K)1350
Boiling Point (K)2064
Specific Heat0.18
Heat of Formation206.7
Thermal Conductivity
Dipole Polarizability 192
Electron Affinity (kJ/mole)
Electronegativity (Pauling scale)1.17
Atomic Radius (pm)181
Covalent Radius (pm)185
VDW Radius (pm)271
Lattice Constant9
Crystal StructureRHL
Jmol color#8fffc7

Samarium Information

Soft silvery metallic element, belongs to the lanthanoids. Seven natural isotopes, Sm-147 is the only radioisotope, and has a half-life of 2.5*10^11 years. Used for making special alloys needed in the production of nuclear reactors. Also used as a neutron absorber. Small quantities of samarium oxide is used in special optical glasses. The largest use of the element is its ferromagnetic alloy which produces permanent magnets that are five times stronger than magnets produced by any other material. Discovered by Francois Lecoq de Boisbaudran in 1879.

It is used in the electronics and ceramics industries. It is easily magnetized and very difficult to demagnetize. This suggests important future applications in solid-state and superconductor technologies.

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