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SiC Epitaxial Wafers and Their Applications in Optoelectronics

published on 27 Apr 2023

Silicon carbide (SiC)  epitaxial wafers have unique properties that make them ideal for optoelectronic applications such as LEDs and laser diodes. SiC has a wide bandgap, high thermal conductivity, high electrical breakdown field, and strong mechanical properties. Additionally, SiC's thermal stability allows it to operate at high temperatures, making it suitable for high-power applications.


LEDs made from SiC epitaxial wafers have several advantages over traditional LED materials such as GaAs and InP. These include higher efficiency, longer lifetime, and better thermal stability. SiC-based LEDs have higher radiative recombination rates, meaning they can convert more of the input energy into light. They also have a longer lifetime and maintain their efficiency at higher temperatures. Moreover, SiC can be used to make blue and green LEDs, which are ideal for high-brightness applications such as automotive lighting and projectors.


SiC epitaxial wafers are also well-suited for laser diodes, particularly in applications requiring high power and high-speed operation, such as fiber-optic communications and LiDAR. SiC has a higher maximum operating temperature and can thus operate at higher power levels without overheating. SiC also has a lower threshold for lasing and a higher gain coefficient than traditional materials, allowing for faster switching and higher power output.


In conclusion, SiC epitaxial wafers are a promising material for optoelectronic applications, particularly for high-power and high-speed applications such as LEDs and laser diodes. Their unique properties allow for higher efficiency, longer lifetime, and better thermal stability than traditional materials.

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