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2D Fluidics Pty Ltd created to launch the Vortex Fluidic Device (VFD)

Posted By Terrance Barkan, Friday, June 22, 2018

 

Advanced materials company, First Graphene Limited (“FGR” or “the Company”) (ASX: FGR) is pleased to announce the launch of its 50%-owned associate company, 2D Fluidics Pty Ltd, in collaboration with Flinders University’s newly named Flinders Institute for NanoScale Science and Technology

 

The initial objective of 2D Fluidics will be the commercialisation of the Vortex Fluidic Device (VFD), invented by the Flinders Institute for NanoScale Science and Technology’s Professor Colin Raston. The VFD enables new approaches to producing a wide range of materials such as graphene and sliced carbon nanotubes, with the bonus of not needing to use harsh or toxic chemicals in the manufacturing process (which is required for conventional graphene and shortened carbon nanotube production). 

 

This clean processing breakthrough will also greatly reduce the cost and improve the efficiency of manufacturing these new high quality super-strength carbon materials. The key intellectual property used by 2D Fluidics comprises two patents around the production of carbon nanomaterials, assigned by Flinders University. 

 

2D Fluidics will use the VFD to prepare these materials for commercial sales, which will be used in the plastics industry for applications requiring new composite materials, and by the electronics industry for circuits, supercapacitors and batteries, and for research laboratories around the world.

 

2D Fluidics will also manufacture the VFD, which is expected to become an in-demand state-of-the-art research and teaching tool for thousands of universities worldwide, and should be a strong revenue source for the new company. 

 

Managing Director, Craig McGuckin said “First Graphene is very pleased to be partnering Professor Raston and his team in 2D Fluidics, which promises to open an exciting growth path in the world of advanced materials production. Access to this remarkably versatile invention will complement FGRs position as the leading graphene company at the forefront of the graphene revolution.” 

 

Professor Colin Raston AO FAA, Professor of Clean Technology, Flinders Institute for NanoScale Science and Technology, Flinders University said “The VFD is a game changer for many applications across the sciences, engineering and medicine, and the commercialisation of the device will have a big impact in the research and teaching arena,” Nano-carbon materials can replace metals in many products, as a new paradigm in manufacturing, and the commercial availability of such materials by 2D Fluidics will make a big impact. It also has exciting possibilities in industry for low cost production where the processing is under continuous flow, which addresses scaling up - often a bottleneck issue in translating processes into industry.

Tags:  2D Fluidics  batteries  Carbon Nanotubes  circuits  Composites  electronics  First Graphene  Graphene  Plastics  research laboratories  supercapacitors  Vortex Fluidic Device (VFD) 

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Graphene Council Champions Graphene Standards

Posted By Dexter Johnson, IEEE Spectrum, Thursday, May 3, 2018

The Graphene Council has consistently been spearheading the development of standards around graphene. This is for good reason.

Ask just about any company involved in bringing graphene and graphene-enabled products to market—as we have—and  you will quickly realize that all these organizations consider standardization of the material as a critical need for the wider adoption of graphene.

To further heighten awareness of this issue, The Graphene Council recently contributed an article  to The Graphene Technology Journal published by Springer and Nature in which we conducted an interview with Norbert Fabricius, who is one of the leading authorities on the development of standards around graphene.

Of course, we have also interviewed our own Executive Director, Terrance Barkan, on how the industry can collectively accelerate the development of standards for graphene.  

After all this effort, others are beginning to seek us out to learn more about the development of standards related to graphene. In an interview with SciTech Europa, Barkan provides an in-depth look at where standards for graphene are now and their importance going forward. 

In this interview, Barkan references the Global Graphene Industry Survey and Report produced by The Graphene Council that even two years after its publication remains the most extensive survey of producers and users of graphene. Barkan also references some of the recent groundbreaking work that the Council is doing in educating the industry into how graphene can best be used in composites and plastics.

It appears the word is getting out about the quality of the studies and projects the Council has undertaken over the years in leading industry efforts from standards to health and safety issues and promoting greater understanding of how graphene fits into the value chain of a range of industries

Tags:  composites  health and safety  plastics  Standards  survey 

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Manchester and INOV-8 create enhanced rubber sole for running shoes

Posted By Terrance Barkan, Monday, December 11, 2017

inov-8 is launching a revolutionary world-first in the sports footwear market following a unique collaboration with scientific experts. The British brand has teamed up with The University of Manchester to become the first-ever company to incorporate graphene into running and fitness shoes.

Laboratory tests have shown that the rubber outsoles of these shoes, new to market in 2018, are stronger, more stretchy and more resistant to wear.

Michael Price, inov-8 product and marketing director, said: “Off-road runners and fitness athletes live at the sporting extreme and need the stickiest outsole grip possible to optimize their performance, be that when running on wet trails or working out in sweaty gyms. For too long, they have had to compromise this need for grip with the knowledge that such rubber wears down quickly."

“Now, utilising the groundbreaking properties of graphene, there is no compromise. The new rubber we have developed with the National Graphene Institute at The University of Manchester allows us to smash the limits of grip."

“Our lightweight G-Series shoes deliver a combination of traction, stretch and durability never seen before in sports footwear. 2018 will be the year of the world’s toughest grip.”

Commenting on the collaboration and the patent-pending technology, inov-8 CEO Ian Bailey said: “Product innovation is the number-one priority for our brand. It’s the only way we can compete against the major sports brands. The pioneering collaboration between inov-8 and the The University of Manchester puts us – and Britain – at the forefront of a graphene sports footwear revolution."

“And this is just the start, as the potential of graphene really is limitless. We are so excited to see where this journey will take us.”

The scientists who first isolated graphene were awarded the Nobel Prize for physics in 2010. Building on their revolutionary work, the team at The University of Manchester has pioneered projects into graphene-enhanced sports cars, medical devices and aeroplanes. Now the University can add sports footwear to its list of world-firsts.

Dr Aravind Vijayaraghavan, Reader in Nanomaterials at the University of Manchester, said: “Despite being the thinnest material in the world, graphene is also the strongest, and is 200 times stronger than steel. It’s also extraordinarily flexible, and can be bent, twisted, folded and stretched without incurring any damage.

“When added to the rubber used in inov-8’s G-Series shoes, graphene imparts all its properties, including its strength. Our unique formulation makes these outsoles 50% stronger, 50% more stretchy and 50% more resistant to wear than the corresponding industry standard rubber without graphene.”

“The graphene-enhanced rubber can flex and grip to all surfaces more effectively, without wearing down quickly, providing reliably strong, long-lasting grip."

“This is a revolutionary consumer product that will have a huge impact on the sports footwear market.”

 

 

Tags:  Composites  Graphene  inov-8  Manchester  Rubber  Shoes  UoM 

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Versarien announces collaboration with Israel Aerospace Industries

Posted By Terrance Barkan, Tuesday, October 31, 2017

Versarien plc, an advanced materials engineering group, has announced that it has entered into a collaboration with Israel Aerospace Industries ("IAI") to enable both groups to work together to develop and test Versarien's proprietary Nanene few layer graphene nano-platelets in aerospace composite structures.

IAI is a world leader in both the defence and commercial markets, delivering state-of-the-art technologies and systems in the domains of: air, space, land, sea, cyber, homeland security and intelligence, surveillance and reconnaissance.

IAI has agreed to purchase Nanene from Versarien, in a variety of forms, which will then be incorporated into composite panels for testing and evaluation, with a view to developing commercial applications for the technology. The collaboration is additionally expected to incorporate discussions and work with IAI's supply chain.

Moshe Medina, EVP and General Manager of IAI's Engineering and Development Group, commented: "IAI looks forward to collaborating with Versarien on graphene based composites, which we believe will help us create stronger and multi-functional materials. It is an ongoing challenge to harnesses the excellent micro- properties of graphene for enhancement of our composites."

Neill Ricketts, CEO of Versarien, commented: "We are delighted to be working with IAI, a global leader in aerospace technologies, to incorporate our graphene into a variety of composite structures. We will be working closely with the teams at IAI and their suppliers to test and evaluate the benefits of adding graphene to a variety of composite structures.

"The agreement with IAI is a significant step forward for Versarien, our first graphene collaboration in the aerospace sector, but it is just one example of the global relationships we are developing. There is increasing interest in the benefits that high quality graphene, of the types manufactured by Versarien, can add to material properties and we look forward to announcing further collaborations in due course." 

Tags:  composites  few layer graphene nano-platelets  IAI  Israel Aerospace Industries  Nanene  Versarien 

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