With 147 fused benzene rings and 920 conjugated atoms, the nanoribbon shows optoelectronic properties that could compete with quantum dots.
Three simple steps to make the longest graphene nanoribbon ever
Posted in particle physics, quantum physics
Posted in particle physics, quantum physics
With 147 fused benzene rings and 920 conjugated atoms, the nanoribbon shows optoelectronic properties that could compete with quantum dots.