2020
DOI: 10.1002/smll.202001428
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Homogeneous 2D MoTe2 CMOS Inverters and p–n Junctions Formed by Laser‐Irradiation‐Induced p‐Type Doping

Abstract: Among all typical transition‐metal dichalcogenides (TMDs), the bandgap of α‐MoTe2 is smallest and is close to that of conventional 3D Si. The properties of α‐MoTe2 make it a favorable candidate for future electronic devices. Even though there are a few reports regarding fabrication of complementary metal–oxide‐semiconductor (CMOS) inverters or p–n junction by controlling the charge‐carrier polarity of TMDs, the fabrication process is complicated. Here, a straightforward selective doping technique is demonstrat… Show more

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Cited by 38 publications
(29 citation statements)
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“…These advances include enhanced contact performance [32,88] and greater control of active channel parameters. [113] Applications in electronics include 2D-material-based transistors [13,16,19,104,[114][115][116][117][118] and memory devices. [119][120][121][122]…”
Section: Electronic Applicationsmentioning
confidence: 99%
See 2 more Smart Citations
“…These advances include enhanced contact performance [32,88] and greater control of active channel parameters. [113] Applications in electronics include 2D-material-based transistors [13,16,19,104,[114][115][116][117][118] and memory devices. [119][120][121][122]…”
Section: Electronic Applicationsmentioning
confidence: 99%
“…Modifying the electrical properties of active 2D materials is a direct way to improve or tune the performance of electronic and optoelectronic devices that utilize these materials. Optically modified 2D material devices have been demonstrated with laserdoping-, [13,16,[114][115][116][117][118] reduction-, [19,104] oxidation-, [64] and ablation- [125] induced bandgap engineering. These laser-initiated changes can reduce threshold voltage, increase drive current, [126] modify the conductance, and widen the operation spectral range of optoelectronic devices.…”
Section: Tuning Electrical Performancementioning
confidence: 99%
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“…In spite of the grand promise of 2DLMs for FETs, such as, intrinsic immunity to short-channel effects and outstanding gate tunability, building complementary logic circuitry has proven to be challenging regarding the difficulty of realizing high-performance n-type and p-type FETs by exploiting an individual kind of 2D semiconductor. Therefore, exploitation of multiple materials with various intrinsic charge-carrier polarities [202][203][204] and specific post-synthesis treatments such as solution processing, [205] laser irradiation, [206] and doping [207] have been developed to address this issue. For example, in 2017, Lee et al fabricated a high-performance inverter with a voltage gain of ≈40 through integrating the n-type InGaZnO FET and p-type MoTe 2 FET.…”
Section: D Layered Materials Alloys Based Logic Invertersmentioning
confidence: 99%
“…Possible solutions include a number of unconventional atomic doping and surface modification techniques that are being explored, such as molecular doping, surface charge transfer or electron doping, electrical activation, , focused laser irradiation, and deep ultraviolet (DUV) irradiation. , These methods mainly involve surface dopants or H 2 O in the atmosphere, MgO film evaporated by electron-beam evaporation, O 2 /H 2 O via electrothermal annealing induced by an electric field, or doping in the channel due to generation of vacancy defects and excess O atoms induced by laser irradiation . Another route is electrostatic doping achieved through gating, where the presumably dominant transport carrier type in the 2D channel is often regulated and dominated by a Schottky barrier (SB). , However, the state-of-the-art method of tailoring the SB height has been limited to employing contact metals with different work functions.…”
Section: Introductionmentioning
confidence: 99%