First Graphene Ltd. is the leading supplier of high-quality, bulk graphene products. The company has a robust manufacturing and supply platform based upon captive supply of high-purity raw materials and an established 100 tonne/year graphene production capacity. Commercial applications are now being progressed in industrial composites, fire retardancy, construction and energy storage.
First Graphene Ltd. is publicly listed in Australia (ASX:FGR) and has a primary manufacturing base in Henderson, near Perth, WA. The company was recently incorporated in the UK as First Graphene UK Ltd. and is a Tier 1 partner at the Graphene Engineering and Innovation Centre (GEIC), Manchester, UK.
First Graphene Ltd. has a well-established manufacturing and supply platform:
High performing PureGRAPH™ graphene products are characterised by their large platelet size, high aspect ratio and low defect levels. PureGRAPH™ products are easy to use and batch to batch consistency is ensured through leading edge quality control testing.
First Graphene Ltd. is also investing in downstream graphene markets and working with some of the best scientific minds with an increased focus on the development of graphene applications and opening downstream markets.
University of Manchester – development of applications in industrial composites and rubbers, fire retardancy, construction materials and energy storage. Projects are already underway and will be accelerated through partnership with the GEIC.
University of Adelaide – formulation of FireStop™ a toxic free and low-cost fire-retardant coating and also development of concrete strengthening additives for the construction industry.
Flinders University – commercialising novel process tools for the synthesis of graphene oxide in an environmentally acceptable process, representing a major breakthrough when compared to existing methods.
Swinburne University of Technology – prototyping a graphene oxide-based supercapacitor. This technology will enable the recharging of mobile phones, for example, in less than 30 seconds and recharge cycles exceeding 10,000 times, which is 10x better than current lithium-ion technology.
First Graphene & the Global Graphene Expo: Interview with Warwick Grigor
First Graphene and planarTECH Collaborate to Develop a Scaled Supply Chain for the Production of Graphene Face Masks
Graphene Protective Materials Extend Life in Mining Equipment
First Graphene to Develop Graphene-Based Energy Storage Materials for Supercapacitors
First Graphene Announces Collaboration in Energy Storage Materials
First Graphene Secures Major Production Order for Mining Wear Linings
PureGRAPH® Incorporated into Steel Blue Safety Boots
newGen Increases PureGRAPH® Order Size
FGR Secures Further Graphite Supplies from KGLL
Significant Fire Retardancy Test Results
Issue of Assessment Certificate
NICNAS Approval Recieved
2D Fluidics VFD Technology Programme to Run at the University of Manchester
First Graphene Applies for NICNAS Listing of PureGRAPH™
Binding MoU with SupremeSAT for Provision of Graphene in Miniature Satellites
Video Comparing the Rate Wood With and Without a Graphene Cover Burns
Video of a Graphene Covered Wooden Strip Undergoing a Verticle Burning Test
Video of Graphene Fire Retardant
Video to Show Graphene Covered Sawdust Undergoing a Smoke and Volatile Compound Suppression Test
Video to Show How to Coat Items with Graphene
Video to Show the Graphene Flame Retardant Capabilities
Video to Show Verticle Burning Test of Graphene Covered Paper
Prof. Hongxia Wang
We speak with Professor Hongxia Wang from QUT about a new project that hopes to utilize graphene and other low-cost carbon materials to produce commercially viable, ultra low-cost, flexible perovskite solar cells.
Moti Segev & Vlad Shalaev
In this interview, AzoNano speaks to Professor Moti Segev and Professor Vladimir Shalaev, who made surprising discoveries about photonic time crystals that challenge existing research and theories.
Siyu Chen, Ph.D.
In this interview, we discuss a new approach to surface-enhanced Raman spectroscopy that utilizes nano-pockets to capture target molecules, ensuring a highly sensitive way to detect chemical processes.
This product profile from Merck outlines information about ultrastable fluorescent silica nanobeads.
The ClearView scintillator camera that elevates your everyday transmission electron microscopy (TEM).
Achieve high-throughput co-localized imaging and in-situ nanoindentation with Bruker’s Hysitron PI 89 Auto SEM.