GMG has developed and proved its own proprietary production process to manufacture Graphene powder from readily available low-cost feedstock. This process produces high quality, low cost, scalable, ‘tuneable’ and contaminant-free graphene.
GMG’s focus has been developing applications for energy saving and energy storage solutions.
In the energy savings segment, GMG has focused on Graphene enhanced heating, ventilating, and air conditioning (HVAC) coatings, lubricants, and fluids. GMG and its customers have successfully demonstrated HVAC coating projects, offering customers improvement in the efficiency of space cooling (air-conditioning) and coolant units. Also, GMG is developing lubricants that aim to reduce friction in engines. Both these to offering customers air conditioning energy cost reductions.
In the energy storage segment GMG and the University of Queensland are working collaboratively with financial support from the Australian Government to progress research and development, and ultimately explore the commercialization of GMG graphene aluminum-ion batteries. Aluminum-ion batteries have the potential to have better energy density than lithium-ion batteries. Graphene Aluminium-ion Batteries may eliminate many disadvantages of LI Batteries, including the risk of overheating/fire and performance degradation. Management believes that the successful commercialization of the Graphene Aluminium-ion Batteries would result in a superior substitute to LI Batteries in targeted applications.
Introducing an Aluminum-Ion Battery that Charges 60 Times Faster than Lithium-Ion
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.