by MBF Admin | Apr 29, 2019 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Graphene Foam, Graphene videos, Graphene-Info, Investment, Lasers, lighting, Products, Research
In May 2017 we reported on a new project at the Institute of Low Temperature and Structure Research (Wroclaw, Poland) that developed a new efficient white light source that uses graphene foam excitated by a continuous-wave laser.The project is still in progress, and...
by MBF Admin | Apr 19, 2019 | 2D materials, Aerospace, AGM, Angstron Materials, Audio, Development, Graphene applications, Graphene Foam, Investment, Products, Research, Rice University, Technical / Research
Researchers from Nankai University in China and Rice University in the U.S. have developed a type of graphene-based foam that retains its texture when exposed to extremely cold temperatures. Structure of the 3D graphene foamThe researchers note that almost all...
by MBF Admin | Jul 8, 2018 | Development, Graphene applications, Graphene Foam, Investment, Medicine, Products, Research
A new study out of Boise State University in the U.S may one day lead to new graphene-based treatments for osteoarthritis, potentially preventing the need for joint replacement.The study investigates the compressive mechanical properties of graphene foam – soft tissue...
by MBF Admin | Jun 18, 2018 | Development, Electronics, Graphene applications, Graphene batteries, Graphene Foam, Graphene Sensors, Investment, Medicine, Products, Research, Rice University, Supercapacitors, Technical / Research
Rice University scientists have developed a simple way to create conductive, 3D objects made of graphene foam. The resulting objects may offer new possibilities for energy storage and flexible electronic sensor applications, according to Rice chemist Prof. James...
by MBF Admin | Dec 18, 2017 | Audio, Development, Graphene Aerogel, Graphene Foam, Graphene videos, Investment, Products, Research
A research team from the Paul Scherrer Institute in Switzerland developed a new loud speaker that is driven by a light signal – and without electricity. The idea is to use modulated light that shines on a 3D graphene sponge. The audio is achieved via a...
