Air Gas Electronic Materials Enterprise Co., Ltd.

A leading manufacturer of semiconductors has followed Intel's lead in lowering its revenue guidance for the current quarter. Semiconductors are parts in many electronic devices, such as your computer, smartphone and even your favorite video games. There is a certain type of gas they use to help make these semiconductors, and one part of that gas is known as methane. But what is methane and why does it matter when making semiconductors? AGEM is here to help you. 

Methane is an invisible, odorless gas. It is commonly present in natural gas, the fuel used for heating and cooking in many homes. Methane is even known sometimes as marsh gas. When the production of semiconductors, methane serves as a special Ganne carbon. Carbon thin layers are excellent for use on the surface of semiconductor materials. In semiconductors world this thin structure is important and required to make semiconductors work better and more precisely, what makes that they execute their tasks properly. 

Better Light Technology by Methane

Optoelectronics — The study of the interaction between light and electronic devices, most often semiconductors. And here it comes the most interesting part!  The same is true in this area for methane. AGEM is focused on developing new, methane-based technologies that can turn the gas into commodities such as LED lights. LEDs are the lights we see in everything, from street lights to phone and TV screens. 

In this way, companies can use methane to manufacture these LEDs so that they produce light much more efficiently. That makes them more efficient and so they produce equal or greater light compared to traditional light sources at a lower power. Furthermore, methane-produced LEDs could have much better color resolution, as well as last significantly longer than traditional bulbs. I think these are environmentally friendly and can be precisely consistent with consumption willing consumers need to engage lighting that is both durable and not boring/hypnotic. 

The Defense Department also intends to begin controlling emissions of another potent greenhouse gas, methane, and Mixture Gases in the production of semiconductors. 

What makes using methane as feedstock for semiconductors so attractive is that a fab can moderate how much methane it uses. In order to control the proportion instead which lets an operator play with their methane total in order to get the results they actually want. Simply by adjusting how much methane is used, they can produce semiconductors with different electrical characteristics. 

This can make it easier for the designers and manufacturers to produce more functional items that cater to what certain users are looking for. For instance semiconductors may need to be very fast for one application and require major energy savings then those cells are big but slow. Methane usage can be tuned to address these varying needs.  

Pros and Cons of Using Methane

Although there are numerous benefits to utilizing methane, a number of issues have arisen that must be addressed. The production of methane, acetylene gas  and its impact on the environment is one of biggest concern. While methane is a potent greenhouse gas and if not managed correctly mitigate the climate change. But the AGEM is similarly focused on efforts to encourage more environmentally friendly methane production. From cultivating the finest ingredients, to using them in their purest form, we are committed to sustaining practices that leave no negative impact on our planet. 

Using lots of methane can sometimes be expensive and is a possible issue, as well. While there is plenty of methane to go around, it can be expensive to scale up production. Nevertheless, AGEM have developed techniques to produce methane in more efficient and cost-effective ways, which helps generalists improve the overall economics of this process. 

Using Methane in Technology to Increase Precision

However, AGEM is always working to make semiconductor technology more accurate and methane and ammonia gas helps with this greatly. By converting methane, it can improve existing technologies, such as semiconductors, into higher functioning and quality. 

Additional efforts are being made by AGEM in the formations of alternatives uses for methane to enhance his/her regard with semiconductor technology. They can, for example, monitor devices like semiconductor using methane sensors. This battery health monitoring is critical for both the safe and efficient operation of a device.