by MBF Admin | Dec 4, 2020 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Investment, Products, Research
Researchers report that they have achieved plasmonically active graphene with record-high charge density without an external gate. They accomplished this by exploiting novel interlayer charge transfer with a two-dimensional electron-acceptor.
by MBF Admin | Dec 3, 2020 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Electronics, Graphene applications, Graphene thermal conductivity, Investment, Products, Research, Technical / Research
Researchers at Sweden-based Chalmers University of Technology, in collaboration with researchers in China and Italy, have found that graphene-based heat pipes can help solve the problems of cooling electronics and power systems used in avionics, data centers, and...
by MBF Admin | Dec 2, 2020 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Electronics, Graphene applications, Graphene for Automotive, Graphene Sensors, Investment, Products, Research
Paragraf, UK-based graphene electronic sensors and devices company, announced that it is helping to realize an industry first by implementing a supply chain for graphene Hall-Effect sensors used in high-temperature Power Electronics, Electric Machines and Drives...
by MBF Admin | Dec 1, 2020 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Graphene applications, Graphene Flagship, Graphene Quantum Dots, Investment, Products, Research, Technical / Research
A study recently conducted by Graphene Flagship partners the University of Strasbourg and CNRS, France, in collaboration with Nanyang Technological University in Singapore, has shown that graphene quantum dots are biodegradable by two enzymes found in the human...
by MBF Admin | Nov 29, 2020 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Graphene applications, Investment, Products, Research, Technical / Research
Scientists from Delft University of Technology and the University of Duisburg-Essen have used the motion of graphene to identify noble gasses. These gasses are chemically passive and do not react with other materials, which makes it challenging to detect...
