Indium Antimonide Wafer
Compound Semiconductor Wafers
-
+86-17701852595 WhatsApp
-
sales@plutosemitech.com Email
Gallium Arsenide (GaAs) is a semiconductor material with superior characteristics such as high frequency, high electron mobility, high output power, low noise and good linearity, which is widely used in the optoelectronics and microelectronics industries. In the field of optoelectronics industry applications, GaAs single crystal can be used to make LED (light-emitting diode), LD (laser), photovoltaic devices, etc. In the field of microelectronics industry applications, it can be used to make MESFET (Metal Semiconductor Field Effect Tube), HEMT (High Electron Mobility Transistor), HBT (Heterojunction Bipolar Transistor), IC, Microwave Diode, Hall devices, etc.
Indium Antimonide (InSb) is a compound semiconductor with exceptional characteristics, including high electron mobility, high sensitivity to infrared light, and low thermal noise. These properties make Gallium Arsenide wafer ideal for use in infrared detectors, night vision devices, and other optoelectronic applications. InSb is also used in high-speed electronics, such as high-frequency transistors and photodetectors, due to its superior performance in low-power and high-frequency operations. As a leading China Indium Antimonide wafer manufacturer, we specialize in producing high-quality InSb wafers for a wide range of applications.
Indium Antimonide Wafer Specifications
| Product Name | Unit | LD Application Product Specifications | LED Application Product Specifications | Microelectronics Applications Product Specifications |
| Conductive Type | n-type | p-type/n-type | - | |
| Crystal Growth Methods | VGF | VGF | VGF | |
| Dopant | Si | Zn/Si | Undopant | |
| Diameter | inch | 2",3",4" and 6" | 2",3",4" and 6" | 2",3",4" and 6" |
| Orientation(*) | (100)±0.1° | (100)±0.5° | (100)±0.5° | |
| OF/IF | US or EJ | US or EJ | US, EJ or notch | |
| Carrier Concentration | /cm3 | (0.4-2.5)×1018 | (0.5-5)×1019 (0.4-4)×1018 | |
| Resistivity (room temperature) | ohm·cm | (1.2-9.9)×10-3 | (1.2-9.9)×10-3 | >107 |
| Electron Mobility | cm2/v·s | >1500 | 50-120/>1000 | >4000 |
| EPD | /cm2 | < 500 | < 5000 | < 5000 |
| Laser Mark | Customised to customer requirements | Customised to customer requirements | Customised to customer requirements | |
| Finished Product Thickness(*) | μm | (350-650)±25 | (350-650)±25 | (350-650)±25 |
| TTV(DSP) | μm | ≤5 | ≤5 | ≤4 |
| TTV(SSP) | μm | ≤10 | ≤10 | ≤10 |
| Warp | μm | ≤10 | ≤10 | ≤10 |
| Frontside/Backside | Side1 | Polished | Polished | Polished |
| Side2 | Polished/Etched | Polished/Etched | Polished/Etched | |
| out-of-the-box | Yes | Yes | Yes | |
| Package | Single or multiple piece cassettes | Single or multiple piece cassettes | Single or multiple piece cassettes |
* Orientation and thickness can be customised according to customers' requirements.
Indium Antimonide Wafer Features
1. High Electron Mobility: InSb wafers have one of the highest electron mobilities among compound semiconductors, making them ideal for high-speed and high-frequency applications.
2. Infrared Sensitivity: Known for their excellent infrared absorption properties, InSb wafers are widely used in infrared detectors, thermal imaging systems, and night vision devices.
3. Low Thermal Noise: InSb has low thermal noise, making it highly suitable for precision sensors and low-noise electronics.
4. Superior Performance in Low Power: The material performs well in low-power electronic and optoelectronic devices, enhancing energy efficiency and extending device life.
5. Wide Bandgap Range: With a narrow bandgap, InSb wafers enable efficient operation at room temperature, particularly in infrared wavelength ranges.
Application Scenarios
Semiconductor silicon wafer is the upstream of integrated circuit industry and is an important material for manufacturing integrated circuits.
Semiconductor silicon wafer manufacturing technology is difficult, the downstream application is wide, the market value is high, is the main application field of silicon wafer. Silicon is the starting point of the semiconductor industry chain, through the front and back of the entire chip manufacturing process, without silicon semiconductor industry will be like water without a source. The output and quality of silicon wafers directly restricts the entire semiconductor industry, and the development of many industries such as communications, automobiles, and computers further downstream, and is a key material for manufacturing chips.
Semiconductor products are mainly used in computer, household appliances, digital electronics, electrical, communications, transportation, medical, aerospace and many other fields.
Packaging and Transportation
The packaging should be able to withstand the impact, vibration, stacking and extrusion that may be encountered during transportation, while also it has to easy to load, unload and handle.
We use professional wafer box packaging. The wafer box is protected by a double layer bag, the inside is a PE bag that can be dust-proof, and the outside is a aluminum foil bag that can be isolated from the air. The two-layer bags are vacuum-packed.
We will choose carton models according to different sizes of products. And between the product and the carton filled with shock-proof EPE foam, play a comprehensive protection.
Finally choose air transport to reach the customer's hands. This allows customers in any country and region to receive the product in the fastest time.
We comply with the Material Safety Data Sheet (MSDS) rules to ensure that the products transported are free of harmful substances and will not cause environmental pollution and explosion and other possible hazards.
Enterprise Strength
Factory Area: 3000 sq
Process:
1. Shaping→2. Edge Profile→3. Lapping→4. Polishing→5. Cleaning→6. Packing→7. Transportation
Capacity:
Glass Wafer --- 30K pcs
Silicon Wafer --- 20K pcs
(Equal to 6in)
Quality Assurance
Quality inspection method: Product inspection in accordance with SEMI standard or according to customer's requirements, together with product COA.
Warranty period: In accordance with the contract requirements.
Quality system management:
●Organize production according to ISO9001 and other quality system standards.
Quality management system and measures:
●Establish a strict quality assurance system, the heads of all departments and quality engineers to ensure the coordinated operation of the quality system.
●Strengthen the quality inspection system, strengthen the process quality control
●Strict material quality control, ensure that the input materials meet the design requirements and technical specifications.
●Implement a timely filing system for technical data to ensure that all processing technical data is complete/accurate.
Quality control in the production stage:
●Production preparation stage: carefully organize relevant personnel to learn product drawings and technical rules, and improve the technical level of employees.
●Quality control of the production process: the implementation of a strict handover system, the previous step of the process to the next step of the transfer, should be detailed processing. At the same time, strengthen the quality inspection system to ensure the quality of each step of the process.
●Quality acceptance: All processes must be quality acceptance before proceeding to the next process.
Pre-sales and After-sales
Pre-sales Service
Professional technical support and commercial team to help you determine product specifications according to product use, and issue specifications.
On-purchase Service
Produce products according to the confirmed specifications and our process.
After Sale Service
We will respond to any product problems encountered by customers or process problems encountered by customers within 24 hours. We can choose from various forms of service, such as email, video conference and so on.
Plutosemi Co., Ltd. was established in 2019, headquartered in Nanhai, Foshan, focusing on the research and development, production, and sales of high-performance semiconductor materials.
Advanced production capacity: We have three major production bases in China, with a monthly production capacity of 100000 equivalent 6-inch silicon wafers and 30000 equivalent 8-inch glass wafers, ensuring stable and efficient product supply for our customers.
High quality products: We provide efficient and stable product supply innovative solutions in the fields of glass wafers, silicon polishing wafers, epitaxial wafers (EPI), silicon on insulator wafers (SOI), and more. Our silicon wafers have the characteristics of ultra-thin, ultraflat, and high-precision, which can meet the needs of various high-end applications. Our glass and quartz substrates are also renowned for their high smoothness and precise aperture design.
