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GaN , N-type , Si doped (0001) 10x10.5x0.35mm,2sp
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GaN , N-type , Si doped (0001) 10x10.5x0.35mm,2sp

GaN , N-type , Si doped (0001) 10x10.5x0.35mm,2sp

GaN single crystal substrates is made by a hydride vapor phase epitaxy (HVPE)-based method. During the HVPE process, HCl reacts with molten Ga to form GaCl, which in turn reacts with NH3 to form GaN. The large growth rate enables the growth of self-supporting wafer thicknesses in a convenient time period.

Specifications of the Substrate

  • Orientation:                     c-axis (0001) +/- 1.0 o
  • Nominal Thickness           350+/- 25 microns
  • Dimension:                      10 mm x 10.5 mm +/- 0.5 mm
  • Bow                                <5 microns
  • TTV                                <10 microns
  • Conduction Type:             N-type
  • Resistivity                        <0.05ohm-cm
  • Dislocation Density           <5x106cm-2
  • Macro Defect Density        <=5 cm-2 
  • Front Surface Finish          (Ga Face), RMS <0.3 nm
  • Back Surface Finish           (N Face), RMS <0.5 nm
  • Useable area :               >90% ( edge exclsion)      

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$454.65

Original: $1,299.00

-65%
GaN , N-type , Si doped (0001) 10x10.5x0.35mm,2sp

$1,299.00

$454.65

GaN , N-type , Si doped (0001) 10x10.5x0.35mm,2sp

GaN single crystal substrates is made by a hydride vapor phase epitaxy (HVPE)-based method. During the HVPE process, HCl reacts with molten Ga to form GaCl, which in turn reacts with NH3 to form GaN. The large growth rate enables the growth of self-supporting wafer thicknesses in a convenient time period.

Specifications of the Substrate

  • Orientation:                     c-axis (0001) +/- 1.0 o
  • Nominal Thickness           350+/- 25 microns
  • Dimension:                      10 mm x 10.5 mm +/- 0.5 mm
  • Bow                                <5 microns
  • TTV                                <10 microns
  • Conduction Type:             N-type
  • Resistivity                        <0.05ohm-cm
  • Dislocation Density           <5x106cm-2
  • Macro Defect Density        <=5 cm-2 
  • Front Surface Finish          (Ga Face), RMS <0.3 nm
  • Back Surface Finish           (N Face), RMS <0.5 nm
  • Useable area :               >90% ( edge exclsion)      

Related Products

Other Sapphire

GaN

 AlN template 

 ZnO

A-plane (11-20)

Diamond Scriber

Vacuum Pen

Wafer Containers

Film Coaters



 

 

Product Information

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Description

GaN single crystal substrates is made by a hydride vapor phase epitaxy (HVPE)-based method. During the HVPE process, HCl reacts with molten Ga to form GaCl, which in turn reacts with NH3 to form GaN. The large growth rate enables the growth of self-supporting wafer thicknesses in a convenient time period.

Specifications of the Substrate

  • Orientation:                     c-axis (0001) +/- 1.0 o
  • Nominal Thickness           350+/- 25 microns
  • Dimension:                      10 mm x 10.5 mm +/- 0.5 mm
  • Bow                                <5 microns
  • TTV                                <10 microns
  • Conduction Type:             N-type
  • Resistivity                        <0.05ohm-cm
  • Dislocation Density           <5x106cm-2
  • Macro Defect Density        <=5 cm-2 
  • Front Surface Finish          (Ga Face), RMS <0.3 nm
  • Back Surface Finish           (N Face), RMS <0.5 nm
  • Useable area :               >90% ( edge exclsion)      

Related Products

Other Sapphire

GaN

 AlN template 

 ZnO

A-plane (11-20)

Diamond Scriber

Vacuum Pen

Wafer Containers

Film Coaters