Researchers demonstrate that magnetism and superconductivity can coexist in graphene, opening a pathway towards graphene-based topological qubits.
Read More | Graphene News — ScienceDaily
More Graphene news
The Graphene Flagship launches GrEEnBat project to improve battery technology for electric vehicles
Researchers catalog defects that give 2-D materials amazing properties
Flexible and powerful electronics
Carbon nanotubes could help electronics withstand outer space’s harsh conditions
Covid-19 and graphene, a current overview
‘Magic-angle’ trilayer graphene may be a rare, magnet-proof superconductor
Physicists create tunable superconductivity in twisted graphene ‘nanosandwich’
Grapheal raises almost $3 million for graphene-based biosensors, hopes to hit the market by end of 2021
Rearrangements come to Scholl
Paragraf launches advanced graphene-based Hall Effect sensor for mapping of battery cells
Merck and Inbrain Neuroelectronics collaborate on graphene-based bioelectronic therapy technology
Unusual superconductivity observed in twisted trilayer graphene
A superconducting diode without an external magnetic field
Engineering the boundary between 2D and 3D materials
Graphene from plastic waste makes cars greener
Rubber-like stretchable energy storage device fabricated with laser precision
Graphene as ‘the philosopher’s stone’: Turning waste into gold
Laser-assisted explosive synthesis and transfer of turbostratic graphene-related materials for energy conversion applications
Edgy light on graphene may bring new one-way information routers
Graphene-Info updates its Graphene Batteries Market Report