Fig. 2.

Mechanism study for the patterned growth of monolayer MoS₂ nanostructures. (A) Schematic illustration of the growth mechanism of the patterned growth of MoS₂. (B) Comparison of contact angles for pristine, Ar plasma-treated, and O₂ plasma-treated SiO₂/Si substrates. (C) DFT calculation for the binding energies between H₂O and SiO₂/Si substrate treated by O₂ plasma and Ar plasma. (D) DFT calculation for the binding energies between Mo₃O₉ and SiO₂/Si substrate treated by O₂ plasma and Ar plasma. (E, Upper Left) OM image of MoO₂ particles preferentially deposited on patterned SiO₂/Si regions without PTAS. (E, Lower Left) OM image of MoO₂ particles preferentially deposited on patterned SiO₂/Si regions with the presence of PTAS. (E, Right) Raman spectra collected at the regions indicted by the red, blue, and black circles in the OM images in Left; several MoO₂ Raman peaks are labeled in the spectra. It is shown that MoO₂ particles exhibit a clear preference to deposit on the patterned region and that the Raman peaks of MoO₂ are stronger with the presence of PTAS. (F, Upper Left) OM image of monolayer MoS₂ flakes grown on O₂ plasma-treated SiO₂/Si substrate with the assistance of PTAS. The domain size of MoS₂ is around 20 μm. (F, Upper Right) OM image of small MoS₂ flakes grown on O₂ plasma-treated SiO₂/Si substrate without PTAS. (Inset) AFM images of MoS₂ small flakes with domain size around 300 nm. (F, Lower Left) OM image of monolayer MoS₂ flakes grown on pristine SiO₂/Si substrate with the assistance of PTAS. The domain size of MoS₂ is around 8–10 μm. (F, Lower Right) OM image of small MoS₂ flakes grown on pristine SiO₂/Si substrate without PTAS seed. (Inset) AFM images of MoS₂ small flakes with domain size around 200 nm, indicating the poor quality of MoS₂ growth.