Abstract
We report a simple and mass-scalable approach for thin MoS2 films via RF sputtering combined with the post-deposition annealing process. We have prepared as-sputtered film using a MoS2 target in the sputtering system. The as-sputtered film was subjected to post-deposition annealing to improve crystalline quality at 700 °C in a sulfur and argon environment. The analysis confirmed the growth of continuous bilayer to few-layer MoS2 film. The mobility value of ~29 cm2/Vs and current on/off ratio on the order of ~104 were obtained for bilayer MoS2. The mobility increased up to ~173–181 cm2/Vs, respectively, for few-layer MoS2. The mobility of our bilayer MoS2 FETs is larger than any previously reported values of single to bilayer MoS2 grown on SiO2/Si substrate with a SiO2 gate oxide. Moreover, our few-layer MoS2 FETs exhibited the highest mobility value ever reported for any MoS2 FETs with a SiO2 gate oxide. It is presumed that the high mobility behavior of our film could be attributed to low charged impurities of our film and dielectric screening effect by an interfacial MoOxSiy layer. The combined preparation route of RF sputtering and post-deposition annealing process opens up the novel possibility of mass and batch production of MoS2 film.
Highlights
Very low carrier mobility (0.02–7 cm2/Vs)[10,14,15,18,20]
We report a simple and mass-scalable approach for thin MoS2 films via MoS2-RF sputtering combined with the post-deposition annealing process for the first time
To the best of our knowledge, the mobility value of our bilayer MoS2 field effect transistors (FETs) is larger than any reported results of single to bilayer MoS2 FETs grown on SiO2/Si with a SiO2 gate oxide
Summary
Continuous CVD-MoS2 films have been demonstrated using MoCl5 without pre-treatment, but the reported carrier mobility is very low (0.003–0.03 cm2/Vs)[18]. Ma et al.[22] demonstrated the vapor-solid growth of few-layer MoS2 films on (0001) oriented sapphire They estimated room temperature mobility of 192 cm2/Vs from the space-charge limited transport regime of the film. Tao et al.[30] reported MoS2 film using Mo target sputtered in vaporized sulfur ambient, but the grown MoS2 film exhibited p-type behavior with hole mobility up to ~12.2 cm2/Vs and low on/ off current ratio of ~103. The mobility value (~173–181 cm2/Vs) of our few-layer MoS2 FETs is the highest ever for any MoS2 FETs with a SiO2 gate oxide. It is much higher than that of single crystal exfoliated MoS2 flakes on SiO2/Si substrate[31] and comparable to the value of bulk MoS2, room temperature mobility limited by phonon-scattering[32]
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