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10 mm x 10.5 mm Fe-Doped Semi-Insulating Gallium Nitride Single Crystal C Plane (0001),  MSE Supplies LLC

10 mm x 10.5 mm Fe-Doped Semi-Insulating Gallium Nitride Single Crystal C Plane (0001)

  • $ 41900

Qty (pieces) Price (per piece)
1 - 1 $ 419.00
2 - 10 $ 409.00
11 - 11+ $ 399.00

Description for 10 mm x 10.5 mm Fe-Doped Gallium Nitride Single Crystal C Plane (0001)

MSE Supplies offers premium quality GaN crystal substrates with low dislocation density (on the order of 105 /cm2) and uniform surface with no periodic defects. These high quality GaN crystals have an usable area of more than 90%.

We sell directly from the factory, and therefore can offer the best price on the market for high quality GaN crystal substrates. Customers from all over the world have trusted MSE Supplies as their preferred supplier of GaN crystal substrates.

Free-standing GaN substrate, C plane (0001), semi-insulating, size 10 mm x 10.5 mm

Conductivity type: semi-insulating
Single side polished (SSP)
Product #: WA0220
  • Dimension: 10.0 mm x 10.5 mm
  • Thickness: 350 +/- 25 um
  • Usable area: >90%
  • Orientation: C-plane (0001) off angle toward M-axis <1-100> 0.35 deg +/- 0.15 deg
  • Total Thickness Variation: < 15 um
  • Bow: < 20 um
  • Resistivity (300K): > 106 Ohm-cm
  • Fe-doping concentration: ~ 3 × 1018 cm3
  • Dislocation Density: 5x105 cm-2 ~ 3x106 cm-2
  • Polishing: Ga face polish. Front surface: Ra <0.2 nm, epi-ready, double side polished available upon request
  • Package: packaged in a class 100 clean room environment, in single wafer container, under nitrogen atmosphere.

Related References

1. Semi-insulating GaN and its evaluation for alpha particle detection
http://dx.doi.org/10.1016/S0168-9002(03)01550-X

2. High power microwave GaN-based devices
http://ecst.ecsdl.org/content/75/12/77.full.pdf
doi: 10.1149/07512.0077ecst ECS Trans. 2016 volume 75,issue 12, 77-84

3. Charge Transfer in Fe-doped GaN: the Role of the Donor
Ustun Sunay, J. Dashdorj, M.E. Zvanut, J.G. Harrison, J. H. Leach, and K. Udwary, Charge Transfer in Fe-doped GaN: the Role of the Donor. "Charge Transfer in Fe-doped GaN: the Role of the Donor," AIP Conference Proceedings, v.1583, 2014, p. 297.