A team of researchers led by the Massachusetts Institute of Technology and Raytheon BBN Technologies developed a new device that can detect single photons across a wide range of the electromagnetic spectrum, from the higher energy visible to much lower energy radio frequencies. The device consists of a sheet of graphene contacted on two ends by superconductors – a configuration called a Josephson junction.
The National Science Foundation recently awarded University of Wisconsin-Milwaukee scientists $1.5 million to perfect a method of mass-producing graphene-based small water sensors using inkjet printing. The goal is to determine whether the process can be customized in order to scale up production and in a more economic way than traditional manufacturing methods.
The European Commission recently awarded nearly €3.7 million ($4.4 million USD) to an international initiative in the field of early diagnosis of brain cancer. The four-year program, which will be led by Plymouth University, is called An Integrated Platform for Developing Brain Cancer Diagnostic Techniques, or AiPBAND. It will focus on gliomas with specific objectives to identify new blood biomarkers for the disease, design plasmonic-based, graphene-based, and digital ELISA assay-based multiplex biosensors; and to develop a big data-empowered intelligent data management infrastructure and cloud-based diagnostic systems.
Nature’s September issue features articles about Graphene.
ISO/TS 80004-13:2017 lists terms and definitions for graphene and related two-dimensional (2D) materials, and includes related terms naming production methods, properties and their characterization.
It is intended to facilitate communication between organizations and individuals in research, industry and other interested parties and those who interact with them.
See what graphene can do for composites! Highlights from the Graphene Flagship exhibition at Mobile World Congress 2017 include a graphene supercar, a motorcycle helmet and graphene production.
The use of graphene in a single-photon detector makes it dramatically more sensitive to low-frequency light.