by | Sep 14, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers at UBC have found a way to mimic the elusive Schwinger effect using superfluid helium, where vortex pairs appear out of thin films instead of electron-positron pairs in a vacuum. Their work not only offers a cosmic laboratory for otherwise unreachable...
by | Sep 14, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
A novel concrete formulation, CoMLaG, developed through collaboration between the Graphene Engineering Innovation Centre (GEIC), Cemex UK, Galliford Try, Sika, and Northumbrian Water, was recently trialed at a Northumbrian Water site in Sedgefield. It was now reported...
by | Sep 14, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Scientists have finally unlocked a way to identify the elusive W state of quantum entanglement, solving a decades-old problem and opening paths to quantum teleportation and advanced quantum technologies.
by | Sep 13, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Global Graphene Group, a 10% owner of Solidion Technology, recently sold shares part of its Solidion shares but continues to maintain a significant stake of more than 1.3 million shares.Solidion Technology is an advanced battery technology company that aims to address...
by | Sep 13, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
It was announced that Haydale Graphene Industries has signed a strategic collaboration with Interfloor, Europe’s largest manufacturer of carpet underlay and flooring accessories, to integrate JustHeat heater inserts into Interfloor’s flooring systems. The agreement...
by | Sep 13, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Physicists have achieved a breakthrough by using a 58-qubit quantum computer to create and observe a long-theorized but never-before-seen quantum phase of matter: a Floquet topologically ordered state. By harnessing rhythmic driving in these quantum systems, the team...
