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  • Indium Phosphide (InP) Wafers and Substrates
  • Indium Phosphide (InP) Wafers and Substrates

Indium Phosphide (InP) Wafers and Substrates

  • High electron mobility, good radiation stability, and large band gap
  • Surface Roughness(Ra)≤5Å
  • For epitaxial growth of indium gallium arsenide 
  • Superior performance in  high-power and high-frequency electronics
  • S/Fe/Zn doping optional
  • Application fields: optical fiber communication, microwave, millimeter wave(MMV), radiation-resistant solar cells, Etc.
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Specifications:

Material InP single crystal Orientation <100>
Size(mm) Dia50.8×0.35mm,10×10×0.35mm
10×5×0.35mm 		Surface Roughness Ra:≤5A
Polishing SSP (single surface polished) or
DSP (double surface polished)

 

Chemical Properties of InP Crystal:

Single Crystal Doping Conduction Type Carrier Concentration Mobility Ratio Dislocation Density Standard Size
InP / N (0.4-2)×1016 (3.5-4) ×103 5×104 Φ2"×0.35mm
Φ3"×0.35mm
InP S N (0.8-3) ×1018
(4-6) ×1018 		(2.0-2.4) ×103
(1.3-1.6) ×103 		3×104
2×103 		Φ2"×0.35mm
Φ3"×0.35mm
InP Zn P (0.6-2) ×1018 70-90 2×104 Φ2"×0.35mm
Φ3"×0.35mm
InP Fe N 107-108 ≥2000 3×104 Φ2"×0.35mm
Φ3"×0.35mm

 

Basic Properties:

Crystal Structure Tetrahedral(M4) Lattice Constant a = 5.869 Å
Density 4.81g/cm3 Melt Point 1062 °C
Molar Mass 145.792 g/mol Appearance Black cubic crystals
Chemical Stability Slightly soluble in acids Electron Mobility(@300K) 5400 cm2/(V·s)
Bandgap(@300 K) 1.344eV Thermal Conductivity(@300K) 0.68 W/(cm·K)
Refractive Index 3.55(@632.8nm)

Indium Phosphide (InP) is an important III-V compound and semiconductor material with the advantages of high electron mobility, good radiation stability, and large band gap. It has a face-centered cubic ("zincblende") crystal structure, identical to that of GaAs and most of the III-V semiconductors. InP is used as a substrate for epitaxial indium gallium arsenide-based optoelectronic devices. With stable physical and chemical properties, InP finds versatile usages in optical fiber communication, microwave, millimeter wave (MMV), radiation-resistant solar cells, and other fields. 

Indium Phosphide (InP) is also utilized in high-power and high-frequency electronics (High-electron-mobility transistor, Heterojunction bipolar transistor) because of its superior electron velocities. It was used with indium gallium arsenide to make record-breaking pseudomorphic heterojunction bipolar transistors that could operate at 604 GHz. 

Hangzhou Shalom EO offers Custom Indium Arsenide substrate and wafers according to the customer's request, with a good surface roughness of less than 0.5nm and packaged in class 1000 clean room and class 100 bags.