What happens when pure carbon gets under extreme levels of heat and pressure? Easy, it will transform into the hardest material known to mankind: diamonds. High levels of heat and pressure were two of the unique conditions that first forged diamonds billions of years ago. For centuries, diamonds have become a symbol of status, power and wealth thanks to their beautiful properties. Today, remain popular as decorations and forms of investment.Ever since the industrial age, researchers have been interested in replicating the natural processes that take part in a diamond’s creation by using artificial methods. Since diamonds are such a highly resistant material, they have been using in many different industries for different purposes such as: drilling, polishing, building, etc. However, replicating the high levels of heat and pressure required to create a diamond hasn’t been easy. While trying to create artificial diamonds, there has been a long history of failed attempts that lead to gruesome conclusions. The first time researchers succeeded in creating an artificial diamond was reported in the mid 19th century. Ever since then, the methods for creating artificial diamonds have made startling advances.
Thanks to artificial diamonds, many industries are now exploring different possibilities with them. Most importantly, diamonds are now being hailed as the next big thing in technology. Not only are diamonds the hardest substance known, but conveniently they also have the highest thermal conductivity. In other words, this means that diamonds can be used in microchips in order to enhance processors. Processors commonly use silicon, a material that easily melts when the temperatures start getting extreme. This is issue would be completely solved by using diamonds to handle the high temperatures. By the way, if interested, you can sell diamonds at their website, hassle free. Even conventional household technology such as TV’s and fridge sell diamonds at their websites could benefit from diamonds.
Researchers from California have started exploring the possibility of using conventionally available technology to pattern large sheets of diamonds with small, nitrogen-filled holes. Scientists from NASA have started experimenting with artificial diamond to enhance their space projects. Many of the limitations and barriers in many of these different fields of work are starting to crumble and disappear.
Imagine how fast technology could advance if researchers start implementing diamonds in their chips and processors. Our technological devices would be able to run faster, store million times more data and last longer. There’s no doubt about it: dozens of years from now, diamonds will still be high in demand.