by | Nov 1, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers from China’s Peking University, Nanjing University of Aeronautics and Astronautics and Tsinghua University have gained new insights into the van der Waals (vdW) transparency of graphene, a property that determines how it mediates molecular...
by | Oct 31, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Penn State scientists have devised a new method to predict superconducting materials that could work at higher temperatures. Their model bridges classical superconductivity theory with quantum mechanics through zentropy theory. This breakthrough could guide the...
by | Oct 31, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Haydale Graphene Industries has announced the launch of a graphene-enhanced heat-transfer fluid – the second key pillar in the Company’s long-term commercialization strategy.The patented graphene-enhanced fluid extends Haydale’s HDPlas®...
by | Oct 30, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers have made germanium superconducting for the first time, a feat that could transform computing and quantum technologies. Using molecular beam epitaxy to embed gallium atoms precisely, the team stabilized the crystal structure to carry current without...
by | Oct 30, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Archer Materials has reported that initial data from first-stage testing of its blood potassium graphene Biochip project have shown the technology suitable for silicon for point-of-care and at-home diagnostic applications. Archer expects the findings to de-risk its...
by | Oct 29, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
A University of Tokyo team has turned organic molecules into nanodiamonds using electron beams, overturning decades of assumptions about beam damage. Their discovery could transform materials science and deepen understanding of cosmic diamond formation.
