| Literature DB >> 26815333 |
Satoru Ichinokura1, Katsuaki Sugawara2, Akari Takayama1, Takashi Takahashi2,3, Shuji Hasegawa1.
Abstract
We report the direct evidence for superconductivity in Ca-intercalated bilayer graphene C6CaC6, which is regarded as the thinnest limit of Ca-intercalated graphite. We performed the electrical transport measurements with the in situ 4-point-probe method in ultrahigh vacuum under zero- or nonzero-magnetic field for pristine bilayer graphene, Li-intercalated bilayer graphene (C6LiC6) and C6CaC6 fabricated on SiC substrate. We observed that the zero-resistance state occurs in C6CaC6 with the onset temperature (T(c)(onset)) of 4 K, while the T(c)(onset) is gradually decreased upon applying the magnetic field. This directly proves the superconductivity origin of the zero resistance in C6CaC6. On the other hand, both pristine bilayer graphene and C6LiC6 exhibit nonsuperconducting behavior, suggesting the importance of intercalated atoms and its species to drive the superconductivity.Entities:
Keywords: carbon; electrical transport; graphene; graphite-intercalation-compound; semiconductor surface; superconductivity; ultrahigh vacuum
Year: 2016 PMID: 26815333 DOI: 10.1021/acsnano.5b07848
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881