Effect of microscopic ripples on spin relaxation length in single-layer graphene

Abstract: Semiclassical Monte Carlo simulation is used to determine the effect of microscopic ripples on spin relaxation length in freely suspended single-layer graphene. Spin relaxation lengths are simulated using D'yakonov-Perel mechanisms, with comparisons made by including ripple scattering mechanisms along with phonon scattering. The results are simulated with varying temperatures and concentration.

“…Nanotubes integrated within a nanocomposite made of CHI nanofibres, and apatite nanocrystals exhibited improved surface hydrophilicity, osteoblast adhesion and proliferation in vitro [59]. Recently, a renewed interest has been developed upon the carbon mono-layered graphene and its variants (graphene oxide, GO) [60] due to its good biocompatibility [61] but also its possible uses as biosensors [55,[62][63][64]. Graphene can be used in different forms (monolayer nanoplatelets, nanoribbons, nanotubes) and can easily be integrated within the cells showing excellent capacity as drug delivery carrier [65,66].…”

Nano-Engineered Scaffold for Osteoarticular Regenerative Medicine

“…Nanotubes integrated within a nanocomposite made of CHI nanofibres, and apatite nanocrystals exhibited improved surface hydrophilicity, osteoblast adhesion and proliferation in vitro [59]. Recently, a renewed interest has been developed upon the carbon mono-layered graphene and its variants (graphene oxide, GO) [60] due to its good biocompatibility [61] but also its possible uses as biosensors [55,[62][63][64]. Graphene can be used in different forms (monolayer nanoplatelets, nanoribbons, nanotubes) and can easily be integrated within the cells showing excellent capacity as drug delivery carrier [65,66].…”

Nano-Engineered Scaffold for Osteoarticular Regenerative Medicine