2020
DOI: 10.1021/acsami.0c00001
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Reduced Turn-On Voltage and Boosted Mobility in Monolayer WS2 Transistors by Mild Ar+ Plasma Treatment

Abstract: Monolayer two-dimensional transition-metal dichalcogenides, such as tungsten disulfide (WS 2 ), are regarded as promising candidates for optoelectronic and electronic applications. Although theoretical calculations have predicted outstanding electronic properties of WS 2 , the performance of WS 2 -based electronic devices is still limited by the relatively high Schottky barrier and low carrier mobility. In this work, low-energy argon (Ar + ) plasma treatment was used as a nondestructive preconditioning techniq… Show more

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Cited by 19 publications
(25 citation statements)
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“…13,14 The reduction of WS 2 monolayer-based fieldeffect transistors' (FETs) threshold voltage and mobility improvement were also seen after treatment with argon plasma due to the creation of sulfur vacancies in the WS 2 layer and removing surface contaminants from the sample. 15 Although some recent works on photocurrent in TMDs highlight the difference between measurements in different environments, 16,17 In the light of the aforementioned reports, we argue that the photocurrent enhancement of the TMD samples is a combined result of vacancy creation and oxide formation on the sample. In this work, we show on-chip tuning of the photocurrent response of WS 2 to significantly enhance the electrical signal while elongating the duration of the PPC under UV illumination.…”
Section: ■ Introductionmentioning
confidence: 75%
See 1 more Smart Citation
“…13,14 The reduction of WS 2 monolayer-based fieldeffect transistors' (FETs) threshold voltage and mobility improvement were also seen after treatment with argon plasma due to the creation of sulfur vacancies in the WS 2 layer and removing surface contaminants from the sample. 15 Although some recent works on photocurrent in TMDs highlight the difference between measurements in different environments, 16,17 In the light of the aforementioned reports, we argue that the photocurrent enhancement of the TMD samples is a combined result of vacancy creation and oxide formation on the sample. In this work, we show on-chip tuning of the photocurrent response of WS 2 to significantly enhance the electrical signal while elongating the duration of the PPC under UV illumination.…”
Section: ■ Introductionmentioning
confidence: 75%
“…WS 2 samples were also previously subjected to plasma-induced defect formation. There have been reports of photoluminescence enhancement and patching up sulfur vacancies of WS 2 by nitrogen plasma. , The reduction of WS 2 monolayer-based field-effect transistors’ (FETs) threshold voltage and mobility improvement were also seen after treatment with argon plasma due to the creation of sulfur vacancies in the WS 2 layer and removing surface contaminants from the sample . Although some recent works on photocurrent in TMDs highlight the difference between measurements in different environments, , none of the aforementioned plasma treatment experiments discussed the direct influence of plasma on photocurrent in relation to measurements performed in air and vacuum for WS 2 and MoS 2 .…”
Section: Introductionmentioning
confidence: 99%
“…As mentioned above, p-type doping can be obtained through substitution doping, while introducing chalcogenide element defects for n-type doping has also been achieved with great properties, such as mobility, conductivity, doping concentration, on/off current ratio, threshold voltage, and subthreshold swing. 52,87,127,128,[153][154][155][156][157][158][159][160][161][162] For instance, hole mobilities of 8.4 cm 2 (V s) −1 and 137.7 cm 2 (V s) −1 have been achieved by Phosphorus (P) plasma-treated substitutional doping with the sheet hole concentrations of 2.4 × 10 12 cm −2 and 1.3 × 10 10 cm −2 in degenerately and non-degenerately doped p-type transistors, respectively (at V GS = 0 V), as shown in Fig. 9(a-d).…”
Section: Applications Of Plasma-modified 2d Mcs In Electronic and Opt...mentioning
confidence: 99%
“…As a result, bioreceptors can be immobilized on the surface more effectively, improving the sensitivity of BioFET devices. Recently, Hou et al 413 have employed a mild Ar plasma treatment to generate sulfur vacancies in WS 2 monolayers that reduce the effective mass of holes and the work function, while increasing the mobility. The results are reduced turn-on voltage in bottom-electrode FETs, and enhanced conductivity in both top-and bottom-electrode FETs.…”
Section: Applications Of Defective Tmdsmentioning
confidence: 99%