2'' 4'' InP Wafer Indium Phosphide Wafer Semiconductor Substrates 350um 650um

2'' 4'' InP Wafer Indium Phosphide Wafer Semiconductor Substrates 350um 650um

Description of InP wafer:

InP (Indium phosphide) chips are a commonly used semiconductor material for the manufacture of high-performance optoelectronic devices such as photodiodes, lasers and photoelectric sensors.

• Crystal structure: InP chips adopt a cubic crystal structure with a highly ordered lattice structure.

• Energy gap: InP chips have a small direct energy gap of about 1.35 eV, which is a semiconductor material in the visible light range.

• Refractive index: The refractive index of an InP wafer varies with the wavelength of light and is about 3.17 in the visible range.

• Thermal conductivity: InP has a high thermal conductivity of about 0.74 W/(cm·K).

• Electron mobility: InP chips have a high electron mobility of about 5000 cm^2/(V·s).

• Chip size: InP chips are usually supplied in round chip form and can range in diameter from a few millimeters to several inches.

• Surface characteristics: The surface of the InP chip is usually specially treated to improve its flatness and cleanliness.

Features of InP wafer:

InP (Indium phosphide) chip is widely used in the field of optoelectronic devices as the substrate material of semiconductor devices. Here are some of the advantages of InP chip substrate materials:

• Direct energy gap: InP chips have a small direct energy gap (about 1.35 eV), allowing them to efficiently absorb and emit light signals in the visible range.

• High electron mobility: InP chips have a high electron mobility (approximately 5000 cm^2/(V·s)), making them exhibit excellent electrical properties in high-speed electronic devices.

• Strong photoelectric effect: InP chips have a strong photoelectric effect, making them exhibit excellent performance in devices such as photodetectors and photodiodes.

• Stability and reliability: InP chips have good thermal stability and electrical properties, enabling them to work in high temperature and high electric field environments.

• Extensive preparation techniques: InP wafers can be grown by a variety of preparation techniques, such as metal-organic chemical vapor deposition (MOCVD) and molecular beam epitaxy (MBE).

Technical Parameters of InP wafer:

Applications of InP wafer:

InP (Indium phosphide) chip, as the substrate material of semiconductor devices, has excellent photoelectric and electrical properties. The following are some of the main application areas of InP chip substrate materials:

• Optical communication: It can be used to manufacture light transmitters (such as lasers) and light receivers (such as photodiodes) in fiber optic communication systems.

• Optical detection and sensing: Photodetectors based on InP chips can efficiently convert optical signals into electrical signals for optical communication, optical measurement, spectral analysis and other applications.

• Laser technology: INP-based lasers are widely used in optical communication, optical storage, liDAR, medical diagnosis and material processing.

• Optoelectronic integrated circuits: InP chips can be used to make optoelectronic integrated circuits (OEics), which is the integration of optoelectronic devices and electronic devices on the same chip.

• Solar cells: InP chips have a high photoelectric conversion efficiency, so they can be used to manufacture efficient solar cells.

FAQ:

Q1: What brand name is the InP wafer?
A1: The Indium Phosphide is made by ZMSH.

Q2: What's the diameter of the Indium Phosphide?
A2: Thediameter of Indium Phosphide is 2'', 3'', 4''.

Q3: Where is the Indium Phosphide from?
A3: The Indium Phosphide is from China.

Q4: Is the Indium Phosphide ROHS certified?
A4: Yes, the Indium Phosphide is ROHS certified.

Q5: How many Indium Phosphide wafes can I buy at 1 time?
A5: The minimum order quantity of the Indium Phosphide is 5pcs.

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