by | Aug 19, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers from Pohang University of Science and Technology (POSTECH) and the Korea Atomic Energy Research Institute recently developed a graphene-based technology that can separate dangerous tritium from radioactive wastewater in a liquid state. Tritium is a...
by | Aug 18, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
U.S-based women’s workwear brand Dovetail has launched a graphene-enhanced collection said to be “smarter, lighter, stronger and more comfortable than ever”. The brand’s recently launched Graphene Collection is a line of work pants infused with graphene...
by | Aug 18, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
K-golfwear brand LUVERO is planning to utilize graphene in order to move onto the global stage. A few days ago, the company signed an MOU with KAIST’s Professor Kim Sang-wook’s research team and his new graphene materials startup Grapheneol, and clothing...
by | Aug 17, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Scientists have, for the first time, experimentally proven that angular momentum is conserved even when a single photon splits into two, pushing quantum physics to its most fundamental limits. Using ultra-precise equipment, the team captured this elusive...
by | Aug 17, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers have unveiled a new quantum material that could make quantum computers much more stable by using magnetism to protect delicate qubits from environmental disturbances. Unlike traditional approaches that rely on rare spin-orbit interactions, this method uses...
by | Aug 16, 2025 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Rice University scientists have discovered a way to make tiny vibrations, called phonons, interfere with each other more strongly than ever before. Using a special sandwich of silver, graphene, and silicon carbide, they created a record-breaking effect so sensitive it...
