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Silicon Carbide Epitaxy


The preparation of high-quality silicon carbide epitaxy depends on advanced technology and equipment and equipment accessories. At present, the most widely used silicon carbide epitaxy growth method is Chemical vapor deposition (CVD). It has the advantages of precise control of epitaxial film thickness and doping concentration, fewer defects, moderate growth rate, automatic process control, etc., and is a reliable technology that has been successfully applied commercially.


Silicon carbide CVD epitaxy generally adopts hot wall or warm wall CVD equipment, which ensures the continuation of epitaxy layer 4H crystalline SiC under high growth temperature conditions (1500 ~ 1700℃), hot wall or warm wall CVD after years of development, according to the relationship between the inlet air flow direction and the substrate surface, Reaction chamber can be divided into horizontal structure reactor and vertical structure reactor.


There are three main indicators for the quality of SIC epitaxial furnace, the first is epitaxial growth performance, including thickness uniformity, doping uniformity, defect rate and growth rate; The second is the temperature performance of the equipment itself, including heating/cooling rate, maximum temperature, temperature uniformity; Finally, the cost performance of the equipment itself, including the price and capacity of a single unit.



Three kinds of silicon carbide epitaxial growth furnace and core accessories differences


Hot wall horizontal CVD (typical model PE1O6 of LPE company), warm wall planetary CVD (typical model Aixtron G5WWC/G10) and quasi-hot wall CVD (represented by EPIREVOS6 of Nuflare company) are the mainstream epitaxial equipment technical solutions that have been realized in commercial applications at this stage. The three technical devices also have their own characteristics and can be selected according to demand. Their structure is shown as follows:


The corresponding core components are as follows:


(a) Hot wall horizontal type core part- Halfmoon Parts consists of

Downstream insulation

Main insulation upper

Upper halfmoon

Upstream insulation

Transition piece 2

Transition piece 1

External air nozzle

Tapered snorkel

Outer argon gas nozzle

Argon gas nozzle

Wafer support plate

Centering pin

Central guard

Downstream left protection cover

Downstream right protection cover

Upstream left protection cover

Upstream right protection cover

Side wall

Graphite ring

Protective felt

Supporting felt

Contact block

Gas outlet cylinder



(b)Warm wall planetary type

SiC coating Planetary Disk &TaC coated Planetary Disk


(c)Quasi-thermal wall standing type


Nuflare (Japan): This company offers dual-chamber vertical furnaces that contribute to increased production yield. The equipment features high-speed rotation of up to 1000 revolutions per minute, which is highly beneficial for epitaxial uniformity. Additionally, its airflow direction differs from other equipment, being vertically downward, thus minimizing the generation of particles and reducing the probability of particle droplets falling onto the wafers. We provide core SiC coated graphite components for this equipment.


As a supplier of SiC epitaxial equipment components, VeTek Semiconductor is committed to providing customers with high-quality coating components to support the successful implementation of SiC epitaxy.



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Silicon Carbide Coating Wafer Holder

Silicon Carbide Coating Wafer Holder

The Silicon Carbide Coating Wafer Holder by Veteksemicon is engineered for precision and performance in advanced semiconductor processes such as MOCVD, LPCVD, and high-temperature annealing. With a uniform CVD SiC coating, this wafer holder ensures exceptional thermal conductivity, chemical inertness, and mechanical strength — essential for contamination-free, high-yield wafer processing.
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CVD SiC coated wafer susceptor

CVD SiC coated wafer susceptor

Veteksemicon’s CVD SiC coated wafer susceptor is a cutting-edge solution for semiconductor epitaxial processes, offering ultra-high purity (≤100ppb, ICP-E10 certified) and exceptional thermal/chemical stability for contamination-resistant growth of GaN, SiC, and silicon-based epi-layers. Engineered with precision CVD technology, it supports 6”/8”/12” wafers, ensures minimal thermal stress, and withstands extreme temperatures up to 1600°C.
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SiC coated sealing ring for Epitaxy

SiC coated sealing ring for Epitaxy

Our SiC coated sealing ring for Epitaxy is a high-performance sealing component based on graphite or carbon-carbon composites coated with high-purity silicon carbide (SiC) by chemical vapor deposition (CVD), which combines the thermal stability of graphite with the extreme environmental resistance of SiC, and is designed for semiconductor epitaxial equipment (e.g., MOCVD, MBE).
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Single wafer epi graphite susceptor

Single wafer epi graphite susceptor

Veteksemicon Single wafer epi graphite susceptor is designed for high-performance silicon carbide (SiC), gallium nitride (GaN) and other third generation semiconductor epitaxial process, and is the core bearing component of high-precision epitaxial sheet in mass production.Welcome your further inquiry.
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CVD SiC Focus Ring

CVD SiC Focus Ring

VeTek Semiconductor is a leading domestic manufacturer and supplier of CVD SiC focus rings, dedicated to providing high-performance, high-reliability product solutions for the semiconductor industry. VeTek Semiconductor's CVD SiC focus rings use advanced chemical vapor deposition (CVD) technology, have excellent high temperature resistance, corrosion resistance and thermal conductivity, and are widely used in semiconductor lithography processes. Your inquiries are always welcome.
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Aixtron G5+ ceiling component

Aixtron G5+ ceiling component

VeTek Semiconductor has become a supplier of consumables for many MOCVD equipment with its superior processing capabilities. Aixtron G5+ ceiling component is one of our latest products, which is almost the same as the original Aixtron component and has received good feedback from customers. If you need such products, please contact VeTek Semiconductor!
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Veteksemicon silicon carbide epitaxy is your advanced procurement option for producing high-performance 4H-SiC and 6H-SiC epitaxial layers used in wide bandgap semiconductor devices. SiC epitaxy enables the formation of defect-controlled, dopant-engineered epitaxial layers critical for high-power, high-frequency, and high-temperature electronic devices.


Our offering includes specialized components such as SiC epitaxial susceptors, SiC-coated wafer holders, and epitaxy process rings, tailored for use in horizontal and vertical MOCVD and CVD reactors, including platforms by Veeco, Aixtron, and LPE. Veteksemicon’s parts are coated with high-purity CVD SiC, ensuring chemical compatibility, temperature uniformity, and minimal contamination during epitaxial layer growth.


Silicon carbide epitaxy is essential for fabricating power MOSFETs,  IGBTs, and RF components, particularly in automotive, energy, and aerospace applications. The epitaxial process requires extremely precise control over doping concentration, layer thickness, and crystallographic orientation, which is why substrate compatibility and thermal stability of reactor parts are critical.


Relevant terms in this category include 4H-SiC epitaxial wafer, low-defect-density epitaxy, SiC epi-ready substrates, and wide bandgap semiconductors. Veteksemicon supports both research-scale and volume production needs with stable, repeatable, and thermally robust component solutions.


To learn more about our silicon carbide epitaxy support materials, visit the Veteksemicon product detail page or contact us for detailed specifications and engineering support.


As a professional Silicon Carbide Epitaxy manufacturer and supplier in China, we have our own factory. Whether you need customized services to meet the specific needs of your region or want to buy advanced and durable Silicon Carbide Epitaxy made in China, you can leave us a message.
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