Graphene-Info: The Graphene Experts

Graphene-Info has been the leading international graphene publication for over 5 years, with a readership of tens of thousands of professionals a month. We provide a multitude of services to the graphene market based on our extensive and up-to-date knowledge hub and close ties with industry leaders. Our consultancy services include market outreach assistance, nanomaterials brokerage, support for graphene initiatives, business development and more.

Graphene is the world's strongest, thinnest and most conductive material, made from carbon. Graphene's remarkable properties enable exciting new applications in electronics, solar panels, batteries, medicine, aerospace, 3D printing and more!

Recent Graphene news:

Skeleton Technologies enters the truck market with its graphene-based supercapacitor technology

Skeleton Technologies logoSkeleton Technologies, the manufacturer of graphene-based supercapacitors, has entered the commercial truck fleet market. The company recently launched a graphene-based device that helps truck drivers start their engines after long periods of inactivity or in cold weather. 

Launched under brand name SkelStart ESM, the device delivers a powerful surge of energy to a truck’s engine to make sure it will start even after long periods of inactivity or in cold weather. The firm explained that it also eliminates the need for drivers to leave their trucks idling. 

Graphene 3D Lab's video shows its graphene filament in a game controller

Graphene 3D Lab, the company focused on the development and commercialization of technologies which improve the capabilities of 3D printing, has released a video which shows the use of one of its conductive graphene filaments in a game controller. The filament can be used in 3D printing circuitry, capacitive touch sensors and electromagnetic and radio-frequency shielding:


Controlled defects improve graphene's properties

Researchers from the National Cheng Kung University in Taiwan designed a new method for tweaking the properties of graphene by introducing defects into it. Precise control over the amount and nature of defects could bring about new applications of graphene in everything from drug delivery or electronics.

Improving graphene's properties by introducing defects image

The scientists used a technique called electrochemical exfoliation to strip graphene layers from graphite flakes. By varying the voltage they discovered they could change the resulting graphene’s thickness, flake area, and number of defects – all of which alter its electrical and mechanical properties. 

Manchester University collaborates with Akzo Nobel to develop GO-based anti corrosion paints

Manchester University has teamed up with Amsterdam-based paints and coatings company Akzo Nobel, to investigate graphene oxide-based paints that provide protection against rust and corrosion for large metal structures, such as oil rigs, tankers and bridges.

This collaboration between Akzo Nobel and Manchester University is part of a €1m partnership in corrosion research. Akzo Nobel says graphene oxide could provide an ultra-strong, non-corrosive coating for a wide range of industrial applications. Corrosion in its various forms is estimated to cost the global economy $3 trillion a year. Products to protect against corrosion represent an $18 billion world market.

Graphene-based flat pack batteries offer improved performance

Researchers at the University of Wollongong's Institute for Superconducting and Electronic Materials designed a graphene-based flexible, foldable, and lightweight energy storage device for use in next-gen wearable technology and also as a potential device for medical implants, like pacemakers.

Wollongong university's graphene-based flat batteries image

The scientists devised a 3D structure:  liquid graphene was mixed with a polymer and the combination was then solidified to form the carbon nanotubes. The resulting structure was made-up of three parts: graphene, a conductive polymer, and carbon nanotubes. These three parts take the form of single atom-thick networks, resembling carbon formed cylinders. The novel design is efficient because by separating out the layers of carbon, researchers are able to use both surfaces in the structure for charge accumulation. The scientists expect this design to lead to ultra-fast and efficient battery devices. 

Graphene to enable color-tunable LEDs

Researchers from Tsinghua University in Beijing demonstrated a graphene-based LED that not only can be tuned to emit different colors of light, but can do so across nearly the entire visible spectrum: from blue (450-nm wavelength) to red (750-nm wavelength)—basically all colors but the darkest blues and violets. Such a color tunable LED has never before been realized.

Graphene to enable color-tunable LEDs image

The scientists made the light-emitting material from the interface of two different forms of graphene. These forms are graphene oxide (GO) and reduced graphene oxide (rGO). Placed at the interface of the GO and rGO is a special type of partially reduced GO that has optical, physical, and chemical properties that lie somewhere in between those of GO and rGO. The most important "blended" property of the interfacial layer is that it has a series of discrete energy levels, which ultimately allows for the emission of light at many different energies, or colors.

Angstron Materials secures $5 million to expand business and commercialize key products

Angstron Materials logoThe U.S-based graphene materials producer and applications developer Angstron Materials announced securing $5 million in capital to increase manufacturing capacity for its single and few-layer graphene materials and bring key technologies to market.

The company began seeking Pre-Series A funding in late 2014. According to the company, the investment partner (only named as a "key player in advanced materials and consumer electronics") brings extensive business and industry expertise to the table, along with a portfolio of major customers and collaborators.

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