Metal

  • Al Aluminium

    Add to list

    Dimensions10 mm × 10 mm × 0.5 mmm

    Growth TechniqueBridgman

    Orientation(100)
    (110)
    (111)

    Surface1 sides polished

    StructureCubic (FCC)

    Lattice Constanta = 0.405 nm

    Melting Point660 °C

    Density2.70 g/cm3

    Thermal Expansion Coefficient23.1 × 10-6 K-1

    Thermal Conductivity237 W cm-1 K-1

    Hardness2.75 M

    Resistivity28.2 nΩ m @ 20 °C

  • Cu Copper

    Add to list

    Dimensions10 mm × 10 mm × 0.5 mm

    Growth TechniqueBridgman

    Orientation(100)
    (110)
    (111)

    Surface1 sides polished

    StructureCubic (FCC)

    Lattice Constanta = 0.361 nm

    Melting Point1083 °C

    Density8.96 g/cm3

    Thermal Expansion Coefficient16.5 × 10-6 K-1

    Thermal Conductivity401 W cm-1 K-1

    Hardness3 M

    Resistivity16.78 nΩ m @ 20 °C

  • Au Gold

    Add to list

    Dimensions10 mm × 10 mm × 0.5 mm

    Growth TechniqueBridgman

    Orientation(100)
    (110)
    (111)

    Stacking Sequence1 sides polished

    StructureCubic (FCC)

    Lattice Constanta = 0.408 nm

    Melting Point1064 °C

    Density19.3 g/cm3

    Thermal Expansion Coefficient14.2 × 10-6 K-1

    Thermal Conductivity318 W cm-1 K-1

    Hardness2.5 M

    Resistivity22.14 nΩ m @ 20 °C

  • Ni Nickel

    Add to list

    Dimensions10 mm × 10 mm × 0.5 mm

    Growth TechniqueBridgman

    Orientation(100)
    (110)
    (111)

    Surface1 sides polished

    StructureCubic (FCC)

    Lattice Constanta = 0.352 nm

    Melting Point1455 °C

    Density8.91 g/cm3

    Thermal Expansion Coefficient13.4 × 10-6 K-1

    Thermal Conductivity90.9 W cm-1 K-1

    Hardness4 M

    Resistivity69.3 nΩ m @ 20 °C

  • Ag Silver

    Add to list

    Dimensions10 mm × 10 mm × 0.5 mm

    Growth TechniqueBridgman

    Orientation(100)
    (110)
    (111)

    Surface1 sides polished

    StructureCubic (FCC)

    Lattice Constanta = 0.409 nm

    Melting Point962 °C

    Density10.5 g/cm3

    Thermal Expansion Coefficient18.9 × 10-6 K-1

    Thermal Conductivity429 W cm-1 K-1

    Hardness2.5 M

    Resistivity15.87 nΩ m @ 20 °C

Crystals are one of the major pillars of modern semiconductor and optical technologies. Due to the diversity of crystal properties and growth techniques, crystal growth is a highly interdisciplinary subject that requires expertise in physics, chemistry, materials science and engineering.

As the representative of the world’s leading crystal manufacturers Alineason merges various crystal growth techniques into a wide product spectrum of almost all crystals with technological importance, including both bulk crystals and single crystalline wafers and substrates. To meet your particular demand, the crystals can be customized to have individual dimension, doping, and orientation.

Category Specifications

  • Metal single crystals with high purity
  • Specifications beyond the standard offers or fabrication of special forms on request