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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 Doped 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 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. With stable physical and chemical properties, InP is widely used in optical fiber communication, microwave, millimeter wave(MMV), radiation-resistant solar cells and other fields. InP is also used as a substrate for epitaxial indium gallium arsenide based opto-electronic devices.

Indium Phosphide (InP) is also used in high-power and high-frequency electronics (High-electron-mobility transistor, Heterojunction bipolar transistor) because of its superior electron velocity with respect to the more common semiconductors silicon and gallium arsenide. It was used with indium gallium arsenide to make a record breaking pseudomorphic heterojunction bipolar transistors that could operate at 604 GHz.  Also today’s state-of-the-art high-efficiency solar cells for concentrator photovoltaics (CPV) and for space applications use (Ga)InP and other III-V compounds to achieve the required bandgap combinations

Indium Phosphide has particular advantage in two applications:

Photonics : Emission and detection capacities with more than 1,000nm wave length.

RF: High-speed and low noise performance in high frequency RF applications. InP is the first choice for performance-driven niche markets in communication, radar, test equipment, and radiation measurement.

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