Overview of SiC Material – The Benefits and Advantages

1. Amorphous Silicon Carbide (a-SiC): this is an amorphous semiconductor that has a large band gap and can be used in electronic devices such as transistors, solar cells, LEDs, and lasers.


2. Crystalline Silicon Carbide (c-SiC): this is a material that is made up of tiny crystals arranged in regular patterns and can be used in applications like fiber optic cables and high performance electronics.

3. Boron Nitride Silicon Carbide (BN-SiC): this material has properties similar to those of diamond but with a much higher thermal conductivity, which makes it useful for heat shields or high-tech electronics that need to dissipate heat quickly. 4. Silicone Carbonitride Silicon Carbide (SCN-SiC):


this material combines silicon carbide’s hardness with silicone rubber’s flexibility, so it could potentially replace metals in car components or aeroplane parts.


5. Ruthenium Doped Silicon Carbide (Ru-SiC):

This type of SiC features very good electrical properties, making it a popular choice for use in microprocessors and low power computer chips due to its immunity to radiation damage from alpha particles. 6. Titanium Doped Silicon Carbide (Ti-SiC): this material is able to retain electron mobility even at very high temperatures and could have potential uses in computers and other electronics designed for extreme conditions. 7. Indium Doped Silicon Carbide (In-SiC): this material shares many of the same qualities as Ti-SiC, except that it does not require any rare elements to produce, making it more cost effective for companies trying to make their products more environmentally friendly. 8.