Semiconductors are by far the most significant use for silicon carbide. Semiconductors are tiny pieces of material that can control how electricity flows through them. Semiconductors are not exactly the sexiest subject around, but they're vital for an overwhelming number of day-to-day products we'd have a hard time living without, such as computers and phones. They help control the electrical current as it flows through, making sure everything functions correctly.
What you want when it comes to this kind of silicon carbide is the fact that its semiconductive - It can take a lot of electrical power without burning up, sometimes called handling high-power-density in an electricity grid. And that is crucial because it implies devices built using silicon carbide semiconductors could be smaller and more energy efficient than their counter parts being made with other materials. The less energy a device uses the more efficient it is, and this saves on power by allowing you to do work with fewer watts. Energy saving matters to improve the economic condition and environment as well!
Another important advantage of silicon carbide semiconductors is that they can operate at much higher temperatures than those made from other materials. This ability comes in handy for environments, like factories or power plants, where temperatures can become quite high 24/7. So, if we use silicon carbide to create semiconductors in those environments -on everything from high-pressure gas lines and transformers filled with gallons of burning hot oil- it yields more ideal places for such interests (which is something that benefits everyone).
Thanks to all these awesome advantages, scientist and engineers are beginning to use silicon carbide semiconductors across a variety of different kinds of device applications. An electric car or truck, for example - uses semiconductors to help manage when and how the energy from its battery is deployed. These vehicles can travel further per charge than they ever have if you use silicon carbide semiconductors in them! Such a capability is crucial to making electric cars more practical and easier-to-use for all.
Silicon carbide semiconductors have another interesting application; this time in solar power technology. Solar panels convert sunlight into electricity; but, if we want to use the resulting power when and where it's needed most (which is often hours after dark) they need a way of storing that produced energy as well. This is where the semiconductors play a role Silicon carbide semiconductors allow solar power systems to operate more efficiently and effectively, lowering the cost of operation and making clean energy for more accessible.
The silicon carbide itself is, of course - I maybe have not made this clear enough at the start: This is a wide-bandgap semiconductor, and has unique characteristics in terms of how it behaves. But one key aspect to these new components we are building dimmers out from them based on SiC semiconductors [is that] they help us do things like manage solar power better; they enable more efficient motors, which also ties back into reduced electricity usage (and therefore carbon emissions); there are many possible applications around electric mobility as well. That is, for instance we have a way to use electricity more productively and emit less heat-trapping gases that contribute to global warming. Most of the time, we get our electricity by burning fossil fuels-burning coal or oil for example-and that can make a lot of pollution and hurt plants, animals, land and water.
At the end of all this is where silicon carbide semiconductors comes to play which is critical for sectors like aerospace, defense etc. These areas require the performance of machines in extreme conditions This is why a missile or satellite must be able to withstand very high temperatures/radiation in its electronics, for example. Silicon carbide semiconductors can help with making these electronics reliable and efficient, and the success of many missions depend on this.
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