Displays News

Cambridge researchers aims to make flexible, printed graphene-based cameras

The National Science Foundation of China (NSFC) awarded an 18-month Young International Researcher Fellowship to a University of Cambridge researcher that will look to se graphene materials composites for organic optoelectronic compounds. The researcher hope to use inkjet printers to produce those devices and then integrate them into displays, light detectors and gas sensors.

In plain English, it means that they hope these kind of devices will enable flexible, cheap and fast cameras. Compared to current printed organic circuits, the graphene-based will be less sensitive to temperature and moisture and will also offer much faster response time that is suited for photodetection.

Doping Graphene with Lithium enables highest performing conductive transparent film

Researchers discovered that lithium-doped graphene sheets (3-60 layers in thickness) result in the highest ever sheet resistance and transmittance ever reported for continuous thin-films. This may prove to be an important step towards an ITO replacement for touch panels and solar cells.

The lithium was inserted between the graphene layers. As a result of this electrochemical intercalation, the Fermi level is upshifted by the doping effect, resulting in a more transparent and conductive material.

China's Ningo government launch a local long-term graphene plan

The Ningbo government in China decided to help build the local graphene industry as part of its strategic industry plans. The government will launch several graphene projects as part of its "medium and long-term plan for the technological innovation and industrial development of the graphene industry (2014 – 2023) in Ningbo" plan.

Ningo government will help support three stages of the graphene market - raw materials, graphene composite materials and equipment and final products.

BGT and Powerbooster launch a graphene research center in Xiamen, China

Update: It turns out that Konstantin Novoselov did not join the new research institute, he just visited to give a lecture...

In 2013, Shanghai-based Powerbooster Technology developed a graphene-based flexible touch-panels for mobile devices, with ambitious plans to mass produce those panels. The graphene supplier for powerbooster is Bluestone Global Tech (BGT).

Now it is reported that BGT, Power Booster and Xiamen University established the Graphene Industrial Technology Research Institute in Xiamen. The will mainly develop the applications of graphene in batteries, touch screens, cancer treatment, LED lamps, sea water desalination and more.

Graphene and CNTs used to develop a robust and flexible spaser

Researchers from Monash University use graphene and carbon nanotubes to develop a spaser (a nano-laser that emits a beam of light through the vibration of free electrons unlike the electromagnetic wave-emission process of regular lasers).

This new spaser is more robust and flexible compared to regular spasers made from silver and quantum-dots. It can also withstand high temperatures and is eco-friendly.

Rebar graphene, a new CNT-Graphene hybrid, is better than CVD graphene, easier to manufacture

Researchers from Rice University developed a method to create a hybrid graphene-nanotube material that promises to have a better electrical and mechanical qualities than both materials. They call this new material "rebar graphene" because it resembles the way a rebar is used in concrete.

The researchers say that the resulting material contains large, flexible and conductive transparent sheets of graphene that are much easier to manipulate than pure graphene. A few layers of this new material could prove to be a cost-effective ITO alternative for displays and solar cells.

Perpetuus launches graphene-based inks and graphene ITO alternative coating

Last month we reported that UK-based Perpetuus Carbon Technologies entered the graphene supply market and will soon start producing graphene materials (GNPs) in its new 100 annual-ton factory. Today Perpetuus launched two new graphene based products (developed in collaboration with Gwent Electronics Group).

The first is a graphene based ink that features a resistance below one ohm per square centimeter. Perpetuus says this is the most conductive graphene enabled ink in the world, and they are already able to immediately deliver single kilogram batches for R&D and manufacturing optimization. The company will be able to offer ton quantities later on. Perpetuus' inks are available in formulations for ink jet, flexographic printing and sensors technologies.

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