Graphene is one of the most multi-facetted materials that turns it into a highly sought-after solution to a range of applications. It is the world’s strongest material and it increases the strength of other materials when combined through manufacturing processes. When it comes to heat conduction graphene is also a leader in the field. Therefore, when heat needs even distribution across various surfaces, graphene serves as a wonderful coat to establish this outcome.

Even in LEDs, it plays a vital role to aid in longer and brighter light radiation. When it comes to microelectronics, LEDs are however not the only manufacturing process where manufacturers rely on the premium qualities of graphene. It is also becoming a popular choice to use in thermal foils such as in mobile devices. As graphene has several well much-valued purposes in a range of fields, having enough good quality graphene available is vital to various industries.

“Yet, it is sometimes the case that the surface of even pristine graphene is not homogeneous. It might contain wrinkles or other kinds of uniformities. One of the latest additions to the use of atomic force microscopy is to determine the condition of the surface of the graphene.

AFM plays a vital role in the accurate detection of the surfaces of the functional parts of the graphene. This is possible thanks to the capabilities of atomic force microscopy to provide a holistic approach to the characterization of the graphene and any other 2D materials on a nanoscale,” says Keibock Lee, the president of Park Systems.

Since the first commercial model of AFM was launched in the market, the number of uses possible with the assistance of the device is only increasing. “We are very proud of the contribution our trusted team is making across the globe to assist such a wide range of services and needs with our premium quality equipment.
As our clients are often working relentlessly to find more uses for the device, our team is working with the same commitment to bringing forth continuous improvements and optimizing it to deliver even more solutions,” Lee further expands.

Over recent years the importance of using 2D materials started expanding as it delivers effectivity for a range of purposes. Now the aid of AFM also attracted the interest of nanoelectronics researchers. While graphene has been playing a vital role in several large-scale industries, its potential for nano applications is only discovered now.

About Us: Park Systems is the fastest growing and world-leading manufacturer of atomic force microscopy (AFM) systems, with a complete range of products for researchers and engineers in the chemistry, materials, physics, life sciences, semiconductor and data storage industries. Our mission is to enable nanoscale advances for scientists and engineers solving the world’s most pressing problems and pushing the boundaries of scientific discoveries and engineering innovations. Customers of Park Systems include most of the world’s top 20 largest semiconductor companies and national research universities in Asia, Europe and the Americas.  Park Systems is a publicly traded corporation on the Korea Stock Exchange (KOSDAQ) with corporate headquarters in Suwon, Korea, and regional headquarters in Santa Clara, California, USA, Mannheim, Germany, Beijing, China, Tokyo, Japan, Singapore, and Mexico City, Mexico. To learn more about Park Systems, please Visit: https://parksystems.com.