3 of Carbon's Most Valuable Allotropes

When we say carbon is the only element that we frequently see in our daily lives, we mean the different formulations of it found in the form of allotropes. Diamond, Graphite, and Graphene usually as silicon graphene carry the formulations of carbon.

Carbon, the Building Block of Everything

Carbon is a known chemical element that comes in a wide variety of forms and has a proper place in the periodic table. It is the element's diversity which makes it essential for not just graphene manufacturing companies but, also others.

It's Spider Time: Daddy Longlegs Make Graphene-Infused Super Webs

The web-based solution, spider silk, is the result of arachnids, carbon nanotubes, and graphene confluence. Its numerous industrial benefits have forced companies to partner with a graphene supplier and make the full use of its innovative properties.

A Little More about Allotropes

Ever wanted to be in two different places at the same time? Allotropes are amazing elements that can exist in two or more different forms in the same physical plane.

Choosing the Best Laboratory Suppliers

The operations and outcomes of your lab could be jeopardized with a sub-par supplier. Here are things to look for, so you know you are working with the best.

Potential Applications of Graphene in Different Industries

Read on to learn about the potential applications of graphene in the health care, electronics, and automotive industries. 

How Graphene Is Used in Batteries

Silicon graphene is the future of lithium batteries. If you'd like to learn more about it, here's a brief primer.

Graphene, Quantum Dots, and Their Uses

When combined with graphene, quantum dots present a wide range of uses in many fields. Learn about what GQDs are and their different industrial applications.

How Graphene Is Set to Revolutionize Electronics and Telecommunications

Graphene is the most conductive material which, plays a major role in the electronic and communication industry. Being available as SiO2 graphene, the material can easily be utilized in making high-end batteries, transistors, and touchscreens.

Creating New Products With New Materials

The graphene has become a boon to the manufacturing industry. Though it is hard to produce in large numbers, using the CVD growth of graphene with various techniques will allow you to create suitable quantities.

Enhancing Water Filtration Systems with Graphene

Safe drinking water is everyone's right, but the presence of waste and pollutants has made it insufficient. Hence, consult with a graphene manufacturer to know the details before using graphene in your water filtration system.

Different Uses for Graphene

Being considered as the strongest material on earth, graphene has revolutionized the manufacturing industry with its numerous applications. If you're also looking to invest in graphene for your production, consult with a graphene supplier.

graphene supplier

This article discusses how futuristic materials such as silicone, graphene and the technology of 3-D printing are changing manufacturing and business around the world forever.

A Guide to Graphene Transfer Techniques

Graphene is an allotrope of carbon arranged in a hexagonal lattice to form a nanosheet. The material has a thickness of a single atom and is the first two-dimensional substance ever synthesized. It also has incredible mechanical, electrical, and chemical properties.

Researchers have theorized about it for decades before it was finally isolated and characterized in 2004. After that, scientists have continuously worked to take advantage of its properties for a wide variety of applications in engineering, electronics, medicine, and several other industries. But, before it can be used for anything, manufacturers need to move the very small, thin, and breakable material.

Transfer Techniques

When graphene was first made, it was too small and fragile for any practical application. Fortunately, researchers have discovered several transfer techniques that'll let them move the substance safely. Below are a few of them.

Mechanical Exfoliation

This is the first method ever used. It starts by peeling layers of graphite using adhesive tape. It's then rubbed onto a silicon wafer to produce graphene flakes. Over time, scientists developed more complex and delicate procedures.

For the longest time, this was the only way to produce the wonder material. It avoids chemical etching and damage, which is its biggest advantage. What scientists got was incredibly thin and limited to a few micrometers. Researchers created larger silicon wafers to make things more efficient.

Polymer Supported

Polymer supported transfer methods are being developed specifically for CVD (chemical vapor deposition) graphene. The process is designed to remove the unwanted metal substrates left behind after synthesizing.

Various polymers are used to support the substance while transferring. PDMS (polydimethylsiloxane), in particular, is the material of choice. It's durable, unreactive, and resistant to many solvents. PMMA (polymethyl methacrylate) is also a common option. Simply put, it coats the graphene, separating it from the place it was produced, to safely move it somewhere else. The only problem with this method is that, unlike the mechanical process, it can leave chemical marks and damages.

Large-Scale Continuous

For continuous, large-scale transfers, scientists use thermal release tape. It makes graphene with a 30-inch diagonal dimension.

The adhesive tape is heated so the nanomaterial will stick to it. If the process is done too quickly, there's a chance to rip the nanosheet. To prevent this, scientists use a large hot plate to limit movement.

Transfer Free Synthesis

These graphene transfer methods are currently the best ways of transporting the fragile material. To completely avoid damage, several research groups are still developing systems to produce the compound directly where they need it for manufacturing. This involves making devices that create the substance and turn it into something usable.

The Era of Graphene: Its Impact on Science and Technology

Discover how graphene, the wonder material, can revolutionize and improve the field of science and technology.

Three Qualities to Look For in Graphene Production Companies

If you're interested in working with a graphene production company, here are three qualities you should look for that really set the best graphene producers apart.