Graphene-Info: the graphene experts

Purdue University researchers have found that adding a graphene monolayer to devices that protect the platinum microelectrodes of implantable neurostimulation devices can improve the lifetime and reliability of such devices, for the benefit of millions of people who suffer from neurological diseases.

"I know from my industry experience that the reliability of implantable devices is a critical issue for translating technology into clinics," said Hyowon "Hugh" Lee, an assistant professor in Purdue's College of Engineering and a researcher at the Birck Nanotechnology Center, who led the research team. "This is part of our research focusing on augmenting and improving implantable devices using nano and microscale technologies for more reliable and advanced treatments. We are the first ones that I know of to address the platinum corrosion issue in neurostimulation microelectrodes". The team has shown the graphene monolayer to be an effective diffusion barrier and electrical conductor.

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Researchers from Tohoku University, Nissan Motor, Shinshu University and Okayama University have used graphene to make a significant discovery in the quest to replace hydrofluorocarbons in refrigeration systems with natural refrigerants such as water and alcohol.

Their study involved carrying-out a liquid-to-gas phase transition via a nanosponge, a soft, elastic material equipped with small nanopores less than 10 nanometers. Their findings could lead to more efficient refrigerants that are much more environmentally friendly.

Researchers at Osaka University have invented a graphene-based biosensor to detect bacteria such as those that attack the stomach lining and that have been linked to stomach cancer. When the bacteria interact with the biosensor, chemical reactions are triggered which are detected by the graphene.

To enable detection of the chemical reaction products, the researchers used microfluidics to contain the bacteria in extremely tiny droplets close to the sensor surface.

Researchers at The University of Texas at Austin have developed a graphene-based wearable device that can be placed on the skin to measure a variety of body responses, from electrical to biomechanical signals.

The device is so lightweight and stretchable that it can be placed over the heart for extended periods with little or no discomfort. It also measures cardiac health in two ways, taking electrocardiograph and seismocardiograph readings simultaneously. The electrocardiogram (ECG) technique, a method that records the rates of electrical activity produced each time the heart beats. is rather well-known. Seismocardiography (SCG), a measurement technique using chest vibrations associated with heartbeats, is a bit less so. Powered remotely by a smartphone, the e-tattoo is the first ultrathin and stretchable technology to measure both ECG and SCG.

Elcora Advanced Materials has announced it has entered into a research and development agreement with Solargise Canada, a solar manufacturing and utility-scale power project development company.

The scope of work of the research and development agreement includes the development of new technologies using graphite and graphene to improve and augment the efficiency of the solar photovoltaic panels manufactured by Solargise.

Graphene Flagship partner, Emberion, will be launching a VIS-SWIR graphene photodetector at Laser World of Photonics, from 24 to 27 June in Munich, Germany. The linear array covers a wide spectral range, detecting wavelengths from the visible at 400nm into the shortwave infrared up to 1,800nm. Traditionally, it would require both silicon and InGaAs sensors to image across this wavelength range.

Emberion estimates that replacing a system using silicon and InGaAs sensors with its graphene photodetector would result in a 30% cost reduction.