Graphene-Info: the graphene experts

Researchers at the University of Vienna, in collaboration with the Universities of Tübingen, Antwerp and CY Cergy Paris and working with Danubia NanoTech, have developed a graphene-based method to produce 2D materials. They have already produced a new 2D material made of copper and iodine atoms sandwiched between two graphene sheets.

A single layer of cuprous iodide encapsulated in between two sheets of graphene (gray atoms). Image from Phys.org, credit: Kimmo Mustonen, Christoph Hofer and Viera Skákalov

Following the 2D copper iodide, the researchers have already expanded the synthesis method to produce other new 2D materials. "The method seems to be truly universal, providing access to dozens of new 2D materials. These are truly exciting times," Kimmo Mustonen, the lead author of the study, said.

Researchers at Rice University have found that sound can be used to analyze the properties of laser-induced graphene (LIG) in real time.

Earlier this month, graphene-enhanced batteries developer Lyten was commissioned by the U.S DIU to demonstrate battery technology for space applications. Now, Lyten has announced that it has received a contract from the U.S. Department of Defense's (DoD) National Security Innovation Capital (NSIC) program to aid in expanding the capacity of its domestic battery prototype manufacturing and production capabilities.

The funding from NSIC will help reduce the time to market for Lyten's LytCell™ lithium-sulfur (Li-S) batteries by increasing the number of cells that can be produced per year at its battery cell pilot production line, currently being built at its headquarters in San Jose, California.

Today we published new versions of all our graphene market reports. Graphene-Info provides comprehensive niche graphene market reports, and our reports cover everything you need to know about these niche markets. The reports are now updated to January 2022.

The Graphene Batteries Market Report:

• The advantages using graphene batteries
• The different ways graphene can be used in batteries
• Various types of graphene materials
• What's on the market today
• Detailed specifications of some graphene-enhanced anode material
• Personal contact details into most graphene developers

The report package provides a good introduction to the graphene battery - present and future. It includes a list of all graphene companies involved with batteries and gives detailed specifications of some graphene-enhanced anode materials and contact details into most graphene developers. Read more here!

Last month, First Graphene (FGR) announced a milestone in its program to develop high performing supercapacitor materials. Now, the Company announced it has been awarded funding from Innovate UK EDGE to progress development work on its supercapacitor graphene hybrid materials with a Research and Technology Organization (RTO) based in the United Kingdom.

The Innovate EDGE fund supports high-growth small to medium enterprises (SMEs) to scale up and innovate, working alongside the UK’s “RTO and Catapult Network”. The Company will engage with world-leading experts at the Energy Innovation Centre based at Warwick Manufacturing Group (WMG) – part of the Catapult Network.

Advanced Material Development recently announced a new InnovateUK “Analysis 4 Innovators” grant to work on validating its next generation novel nanomaterial-based gas sensors. AMD is working with the National Physical Laboratory (NPL) on the development and testing of devices using advanced testing equipment, and measurement and analysis experience.

The next generation of air quality monitors will rely on low power sensing elements which can be connected remotely to support more detailed and localized emissions monitoring. This three-month project seeks to validate novel nanomaterial-based sensors which AMD has recently developed utilizing its functionalized nanomaterials. For instance, AMD's Photonic Crystal work incorporates various nanomaterials into the polymeric structure, of which graphene is the main constituent.

Emberion recently raised €6 million in funding to further develop their infrared imaging business. Currently, Emberion is one of the leaders in the development of these technologies, enabled by graphene and other layered materials.

Graphene Flagship partner Emberion develops high-performance SWIR sensors for imaging technologies. These devices detect light in both the visible and short-wave infrared (SWIR) wavelengths, enabling new applications in machine vision – used in surveillance, autonomous driving, food processing, waste sorting, and more. Emberion also leads Graphene Flagship Spearhead Project GBIRCAM, to design cheaper and more efficient broadband infrared devices.