Archer Materials advances graphene and carbon quantum technologies
Archer Materials reported advancements in its graphene and carbon-based quantum computing research during the December 2025 quarter. The company made key progress in its 12CQ project by improving quantum state readout for its carbon-based qubit materials - a step...
Talga raises over US$5 million in oversubscribed share purchase plan
Battery materials and technology company Talga Group has announced it has raised A$7,273,000 (almost US$5.1 million) against a target of A$5 million (US$3.5 million) through its Share Purchase Plan (“SPP”), launched on 17 December 2025, with the closure date...
HydroGraph scales up graphene capacity with two new Hyperion reactors
HydroGraph Clean Power has announced that it has started construction of two additional Hyperion graphene reactors, supporting the Company’s planned scale-up of graphene production capacity. Each Hyperion reactor has an expected production capacity of approximately...
Novel graphene thermoacoustic speakers bend and stretch while retaining acoustic performance
Researchers from the Korea Research Institute of Chemical Technology have demonstrated a new class of shape‑configurable thermoacoustic loudspeakers that defy the traditional tradeoff between film thickness, flexibility, and acoustic output. Instead of relying on...
Researchers develop a new method for water-based, layer-selective exfoliation of few-layer graphene
Researchers at Korea-based Edmayim Corp., a materials R&D company specializing in scalable advanced carbon technologies, have reported a practical and scalable graphene exfoliation method based on interlayer expansion followed by controlled centrifugation,...
Novel patterning method enables high‑resolution graphene integration in flexible, transparent electronics
Researchers from Chungnam National University have developed a fabrication technique called one‑step free patterning of graphene, or OFP‑G, which enables high‑resolution patterning of large‑area monolayer graphene with feature sizes smaller than 5 micrometers,...
A hidden magnetic order could unlock superconductivity
Physicists have discovered that hidden magnetic order plays a key role in the pseudogap, a puzzling state of matter that appears just before certain materials become superconductors. Using an ultra-cold quantum simulator, the team found that even when magnetism...
Distant entangled atoms acting as one sensor deliver stunning precision
Researchers have demonstrated that quantum entanglement can link atoms across space to improve measurement accuracy. By splitting an entangled group of atoms into separate clouds, they were able to measure electromagnetic fields more precisely than before. The...
Researchers use agricultural waste to produce graphene
Researchers from Australia's James Cook University and Flinders University recently announced they successfully used cheap agricultural byproduct, nanocellulose, to make graphene - using only water, rather than harsh chemicals. The team took cellulose derived from...
Why you should not miss Graphene Connect 2026
Graphene Connect 2026 is fast becoming the must‑attend virtual gathering for the global graphene and 2D materials ecosystem, and there has never been a better time to secure your place. Over two days on 11–12 March 2026, industry leaders, researchers, and...