Graphene-Info is the web's leading resource on graphene material technology

Graphene is the world's strongest, thinnest and most conductive material, made from carbon. Graphene's remarkable properties enable exciting new applications. Our site brings you daily news and resources, all graphene focused.

Recent Graphene news:

Will graphene enable biomimetic soft robots?

Researchers from China's Xi'an Jiaotong University suggest a new bio-inspired soft robot platform made from graphene composites. The graphene robot is driven by near-infrared (nIR) light as graphene has excellent photothermal conversion efficiency in the nIR light band.

The team suggests building a microfish made from graphene and polymers. The microfish is controlled by nIR light. This is bilayer (pure-PDMS and GNP-PDMS) platform that is easily produced by scraping coating and spin coating processing. The bilayer platform is a soft photoresponsive material that can work in both air and water.

Flexible transparent graphene electrodes may enable electronic tattoos

Researchesr from Korea's Ulsan, KAIST and ETRI institutes developed a process that produces flexible transparent graphene electrodes that can be attached to the skin (or any kind of delicate object). This could enable applications such as electronic tattoo-like stickers or bio-signal sensors.

A graphene metal fiber composite ise used, which lowers the resistance of the transparent electrode to approximately 1/20th of existing ones. This enables the electrodes to be used in flexible displays or sensors. The new process is similar to a widely-used semiconductor process which means that this can be scaled commercially.

Graphene foam may be used as mobile phone shock absorbor

Researchers from the Indian Institute of Science (IISc) developed a new shock absorbor made from graphene foam. The foam's load bearing capacity is very high, and when combined with PDMS it is very flexible and has an even high load-bearing capacity - in fact six times higher than the bare graphene foam. The researchers say this can be used for mobile devices.

The GF-PDMS composite is reusable - it can withstand several cycles of operation without deformation. The material also features excellent thermal and electrical conductivity. The GF-PDMS is very light - its density is only 0.54 grams per cubic cm (iron has a density of 7.87 g/cm3, for example).

Haydale orders new plasma reactors, to offer graphene functionalization reactor licenses

Haydale ordered two new plasma reactors from Tantec, and should receive those new reactors in December 2014. This will allow Haydale to increase graphene production capacity and increase operational flexibility.

Haydale and Tantec also signed a two-year contract to continue to develop the functionalization process to meet specific needs of customers. A couple of months ago Haydale published a research showing how graphene functionalised resins offer a significant improvement in strength.

Graphene-oxide coating to enable anti-rust paint, hermetic food-packaging and electronic substrates

Researchers at the University of Manchester developed a new coating made from graphene-oxide that can be used to enable ultra-strong non-corrosive coating paints, hermetic food packaging and even a good substrate for flexible electronics.

The researchers developed the graphene-oxide coating by taking graphene-oxide and treating it with a "simple chemical treatment". The resulting film behaves like graphite in terms of chemical and thermal stability but becomes mechanically nearly as tough as graphene.

Graphene aerogels are promising for supercapacitor electrodes

Researchers from Lawrence Livermore (LLNL) developed new supercapacitor electrodes made from modified graphene aerogels. Those electrodes feature high surface area, good electrical conductivity, chemical inertness and long-term cycling stability.

The researchers report that the graphene aerogel can improve the performance of commercial carbon-based (carbon black and binder materials) supercapacitor electrodes by more than 100%. The graphene aerogel electrodes have better density and pore size distribution, and increased conductivity.

Graphene may enable electrochromic displays

Electrochromic displays are made from materials in which the transmittance of light to be adjusted by applying a voltage. These work similarly to LCDs by letting light from a backlighting unit (BLU) pass or not and so show desired images. These kind of displays haven't been commercialized successfully yet due to fragile materials and material mismatches with the electrodes.

But this may change now, thanks to graphene. Researchers at Bilkent University developed a graphene electrochromic device that demonstrated 55% modulation and a broad spectral response. Both the electrode and the electrochromic device are made from graphene, and this enables a high percentage optical modulation, optical tuning properties in the UV to infrared, good electrical conductivity with no material mismatches. The display is mechanically flexible.

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