Controlled Low‐Frequency Electrical Noise of Monolayer MoS<sub>2</sub> with Ohmic Contact and Tunable Carrier Concentration

Wang, Ji Wun; Liu, Yen Po; Chen, Po‐Han; Chuang, Meng Hsi; Pezeshki, Atiye; Ling, D. C.; Chen, Victor; Chen, Yung Fu; Lee, Yi Hsien

doi:10.1002/aelm.201700340

Cited by 15 publications

(19 citation statements)

References 44 publications

(122 reference statements)

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“…So, the above simulation results need high‐quality samples without too much defects. This agrees with literature that ideal high‐quality samples play a key role in metal–semiconductor junctions 58…”

Section: Resultssupporting

confidence: 92%

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

Shao

Wang

Pan

et al. 2019

Adv Elect Materials

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Two‐dimensional (2D) layered semiconductors with an intrinsic electric dipole p (pS for short), including group III2‐VI3 ferroelectrics and various Janus semiconductors, are attracting increasing attention for their exotic properties and versatile applications. Their potential in metal–semiconductor junctions is revealed. It is demonstrated that, for pS contacting to 2D metals with a wide range of work‐functions, Schottky‐barrier‐free (SB‐free) and tunable n‐ to p‐type contacts can be obtained, which is important for complementary metal‐oxide‐semiconductor logical circuitry. As expected, low (high) work‐function (WF) metals form n‐type (p‐type) SB‐free contacts to pS. What is unexpected is the behavior of medium‐WF metal‐pS junctions (MpSJ); that is, by switching the polarization in pS, both n‐ and p‐type SB‐free contacts can be obtained by the same pS contacting to metals with a wide range of WF. More importantly, MpSJ with bilayer pS can form both n‐ and p‐type SB‐free contacts. These findings, SB‐free and contact‐type‐tunable of MpSJ for metals with a wide range of work‐functions, demonstrate the great potential of 2D pS for device applications.

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Section: Resultssupporting

confidence: 92%

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

Shao

Wang

Pan

et al. 2019

Adv Elect Materials

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“…This is smaller than that reported in earlier publications for MoS 2 transistors implemented with the exfoliated or CVD material. 49,53 The latter provides an additional confirmation of the material quality from the device applications' point of view.…”

Section: ■ Results and Discussionmentioning

confidence: 92%

High-Vacuum Particulate-Free Deposition of Wafer-Scale Mono-, Bi-, and Trilayer Molybdenum Disulfide with Superior Transport Properties

Almeida

Wurch

Geremew

et al. 2018

ACS Appl. Mater. Interfaces

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Wafer-scale MoS growth at arbitrary integer layer number is demonstrated by a technique based on the decomposition of carbon disulfide on a hot molybdenum filament, which yields volatile MoS precursors that precipitate onto a heated wafer substrate. Colorimetric control of the growth process allows precise targeting of any integer layer number. The method is inherently free of particulate contamination, uses inexpensive reactants without the pyrophoricity common to metal-organic precursors, and does not rely on particular gas-flow profiles. Raman mapping and photoluminescence mapping, as well as imaging by electron microscopy, confirm the layer homogeneity and crystalline quality of the resultant material. Electrical characterization revealed microampere output current, outstanding device-to-device consistency, and exceptionally low noise level unparalleled even by the exfoliated material, while other transport properties are obscured by high-resistance contacts typical to MoS devices.

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“…29,47,48 Finally, we note that most highperformance synthetic MoS 2 FETs are from powder-grown, single-crystalline grains with careful device fabrication process. 29,48 Therefore, future works to remove the antiphase grain boundaries and optimize the device fabrication focusing on large-scale films may lead further improvements on the performance of synthetic 2D films.…”

Section: ■ Results and Discussionmentioning

confidence: 94%

“…Unlike devices on exfoliated and transferred TMDs, synthetic TMDs on 3D crystalline substrates always exhibit stronger film/substrate coupling such as chalcogen passivating interlayer, charge transfer, and Coulomb screening . This unique coupling is a convoluting factor when trying to understand how dopants impact the threshold voltage, mobility, on/off ratio, and low-frequency noise in as-grown cases. ,, Finally, we note that most high-performance synthetic MoS 2 FETs are from powder-grown, single-crystalline grains with careful device fabrication process. , Therefore, future works to remove the antiphase grain boundaries and optimize the device fabrication focusing on large-scale films may lead further improvements on the performance of synthetic 2D films.…”

Section: Results and Discussionmentioning

confidence: 96%

Considerations for Utilizing Sodium Chloride in Epitaxial Molybdenum Disulfide

Zhang

Bersch

et al. 2018

ACS Appl. Mater. Interfaces

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The utilization of alkali salts, such as NaCl and KI, have enabled the successful growth of large single domain and fully coalesced polycrystalline two-dimensional (2D) transition metal dichalcogenide layers. However, the impact of alkali salts on photonic and electronic properties are not fully established. In this work, we report alkali-free epitaxy of MoS2 on sapphire and benchmark the properties against alkaliassisted growth of MoS2. This study demonstrates that although NaCl can dramatically increase the domain size of monolayer MoS2 by 20 times, it can also induce strong optical and electronic heterogeneities in as-grown large-scale films. This work elucidates that utilization of NaCl can lead to variation in growth rates, loss of epitaxy, and a high density of nanoscale MoS2 particles (4  0.7/μm 2 ). Such phenomena suggest that alkali atoms play an important role in Mo and S adatom mobility and strongly influence the 2D/sapphire interface during growth. Compared to alkali-free synthesis under the same growth conditions, MoS2 growth assisted by NaCl results in >1% tensile strain in as-grown domains, which reduces photoluminescence by ~20× and degrades transistor performance.

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Controlled Low‐Frequency Electrical Noise of Monolayer MoS₂ with Ohmic Contact and Tunable Carrier Concentration

Cited by 15 publications

References 44 publications

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

High-Vacuum Particulate-Free Deposition of Wafer-Scale Mono-, Bi-, and Trilayer Molybdenum Disulfide with Superior Transport Properties

Considerations for Utilizing Sodium Chloride in Epitaxial Molybdenum Disulfide

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Controlled Low‐Frequency Electrical Noise of Monolayer MoS2 with Ohmic Contact and Tunable Carrier Concentration

Cited by 15 publications

References 44 publications

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

Van der Waals Contact to 2D Semiconductors with a Switchable Electric Dipole: Achieving Both n‐ and p‐Type Ohmic Contacts to Metals with a Wide Range of Work Functions

High-Vacuum Particulate-Free Deposition of Wafer-Scale Mono-, Bi-, and Trilayer Molybdenum Disulfide with Superior Transport Properties

Considerations for Utilizing Sodium Chloride in Epitaxial Molybdenum Disulfide

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Product

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Controlled Low‐Frequency Electrical Noise of Monolayer MoS₂ with Ohmic Contact and Tunable Carrier Concentration