Haydale has announced that it has been awarded SMART Flexible Innovation Support ("SMART FIS") from The Welsh Government to accelerate the development of its graphene underfloor heating product and range of biomedical sensor inks.

As part of a new innovation strategy for Wales, aimed at supporting Welsh industry by increased investment in research, development, and innovation, SMART FIS will provide Haydale with funding totaling £182,843 over a two-year period. Part of this funding will enable Haydale to accelerate the development of its prototype graphene underfloor heating ("UFH") towards a market-ready CE product that can be tested in a home environment. It will support continued engagement with partners such as City Energy Network Ltd and Plumbase.

E2 Holdings, working with 2DM, recently launched an engine oil additive formulated with high purity graphene. The product, called NAMITEC, is said to improve fuel economy, restore power and performance, reduce noise and vibration, extend engine life and more. 

The Company explains that graphene as a lubricating additive can reduce the coefficient of friction due to its capability to produce a nano-bearing protective layer for the moving parts of your engine. SG Graphene NAMITEC engine oil additive is suitable for all gasoline and diesel engines, as well as machinery and tools.

UK-based Paragraf has acquired U.S-based Cardea Bio, maker of graphene biosensors. Cardea Bio has been renamed Paragraf USA and Michael Heltzen, CEO and co-founder of Cardea Bio, became EVP of Strategy at Paragraf USA.

“Joining Paragraf allows us to use the world’s only mass-produced, transfer-free monolayer graphene to manufacture the state-of-the art graphene-based biosensors developed by the Cardea team over the last ten years. We are looking forward to unlocking powerful synergistic effects to advance the broad and growing use of graphene biosensors for the benefit of both people and the planet,” says Heltzen.

Researchers at North Carolina State University (NC State), National Science and Technology Development Agency and NSTDA Characterization and Testing Service Center in Thailand have created a graphene-based cathode in the shape of a thread-like fiber. The researchers were then able to use the fiber to create a zinc-ion battery prototype that could power a wrist watch.

Battery prototype with thread-like cathode. Image from NCSU website

The proof-of-concept study is a step forward in the development of a fiber-shaped battery that could ultimately be integrated into garments.

Scientists from CiQUS, ICN2, University of Cantabria, Donostia International Physics Center (DIPC), and Technical University of Denmark (DTU) have joined forces to develop a versatile method for building brick by brick carbon nanocircuits with tunable properties. The team sees this as a significant breakthrough in the precise engineering of 2D materials. The proposed fabrication technique opens exciting new possibilities for materials science, and, in particular, for application in advanced electronics and future solutions for sustainable energy.

The team synthesized a new nanoporous graphene structure by connecting ultra-narrow graphene strips, known as “nanoribbons”, by means of flexible “bridges” made of phenylene moieties (which are portions of larger molecules). By modifying in a continuous way the architecture and angle of these bridges, the scientists can control the quantum connectivity between the nanoribbon channels and, ultimately, fine-tune the electronic properties of the graphene nanoarchitecture. The tunability could also be controlled by external stimuli, such as strain or electric fields, providing opportunities for different applications.