Reaction temperature and time dependence of MoCl₅ intercalation to few-layer graphene

Abstract: The efficient MoCl5 intercalation process is required to reduce the resistance of graphene interconnects. We found that optimum intercalation temperature and time depends on the layer number of few-layer graphene. The bilayer graphene was intercalated at 175 °C without serious damage, besides that higher temperature of 200 °C was required to intercalate tri-layer graphene (TLG) with a fixed reaction time for 60 min. Although we can reduce the intercalation temperature for TLG, longer reaction time is required … Show more

“…In this paper, we focus on the study of molybdenum pentachloride (MoCl 5 ) intercalation in BLG. The reported MoCl 5 -GIC holds high chemical stability and electronic conductivity among various transition metal chloride-GICs, − and MoCl 5 -intercalated BLG shows the highest electronic conductivity and optical transmittance as compared to other metal chloride compounds in BLG . However, the intercalated microstructure of MoCl 5 and the corresponding electronic state have not yet been reported.…”

Molybdenum Chloride Nanostructures with Giant Lattice Distortions Intercalated into Bilayer Graphene

“…In this paper, we focus on the study of molybdenum pentachloride (MoCl 5 ) intercalation in BLG. The reported MoCl 5 -GIC holds high chemical stability and electronic conductivity among various transition metal chloride-GICs, − and MoCl 5 -intercalated BLG shows the highest electronic conductivity and optical transmittance as compared to other metal chloride compounds in BLG . However, the intercalated microstructure of MoCl 5 and the corresponding electronic state have not yet been reported.…”

Molybdenum Chloride Nanostructures with Giant Lattice Distortions Intercalated into Bilayer Graphene

Optimization of MoCl5 intercalation for low-resistance and low-damage exfoliated highly-oriented pyrolytic graphite