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W4294867521 abstract "Abstract Semiconducting 2D transition metal dichalcogenides (2D TMDs) with tunable electronic properties are a fundamental prerequisite for the development of next generation advanced electronic/optoelectronic devices. However, controllable and quasi‐continuous tuning carrier polarity of monolayered MoS 2 ranging from intrinsic n ‐type to p ‐type via ambipolarity still remains a challenge. Herein, quasi‐continuous tailoring of carrier polarity of monolayered MoS 2 through substitutional doping of molybdenum (Mo) with vanadium (V) atoms is presented. Atomic distribution in real space characterized by spherical aberration‐corrected scanning transmission electron microscopy (Cs‐STEM) reveals that the V atoms randomly substitute Mo in monolayered MoS 2 , and its doping concentration can be tuned in a wide range from 0.7 to ≈10 at.%. Electrical measurements confirm that the carrier polarity of the monolayered MoS 2 can be tuned from intrinsic n ‐type to p ‐type via ambipolarity depending on the V doping degree, consistent with the density functional theory calculations. Moreover, this doping strategy is demonstrated to extend to other monolayered 2D TMDs by using MoSe 2 as a model material, owing to a good universality." @default.
W4294867521 created "2022-09-07" @default.
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W4294867521 date "2022-09-07" @default.
W4294867521 modified "2023-10-17" @default.
W4294867521 title "Quasi‐Continuous Tuning of Carrier Polarity in Monolayered Molybdenum Dichalcogenides through Substitutional Vanadium Doping" @default.
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W4294867521 cites W1972295128 @default.
W4294867521 cites W1979544533 @default.
W4294867521 cites W1980266980 @default.
W4294867521 cites W1981368803 @default.
W4294867521 cites W1989467737 @default.
W4294867521 cites W1993175930 @default.
W4294867521 cites W2017871657 @default.
W4294867521 cites W2021994802 @default.
W4294867521 cites W2025517108 @default.
W4294867521 cites W2030596327 @default.
W4294867521 cites W2083222334 @default.
W4294867521 cites W2086789380 @default.
W4294867521 cites W2092044679 @default.
W4294867521 cites W2121237359 @default.
W4294867521 cites W2155686425 @default.
W4294867521 cites W2274496440 @default.
W4294867521 cites W2318439217 @default.
W4294867521 cites W2332264150 @default.
W4294867521 cites W2460042946 @default.
W4294867521 cites W2465410745 @default.
W4294867521 cites W2495919264 @default.
W4294867521 cites W2551496181 @default.
W4294867521 cites W2558758197 @default.
W4294867521 cites W2590935033 @default.
W4294867521 cites W2620951601 @default.
W4294867521 cites W2663379051 @default.
W4294867521 cites W2755825426 @default.
W4294867521 cites W2760638974 @default.
W4294867521 cites W2765542896 @default.
W4294867521 cites W2769045270 @default.
W4294867521 cites W2790150729 @default.
W4294867521 cites W2797506253 @default.
W4294867521 cites W2805680831 @default.
W4294867521 cites W2937581098 @default.
W4294867521 cites W2972622705 @default.
W4294867521 cites W2977256766 @default.
W4294867521 cites W2985416905 @default.
W4294867521 cites W3010937298 @default.
W4294867521 cites W3025183620 @default.
W4294867521 cites W3041543205 @default.
W4294867521 cites W3092509157 @default.
W4294867521 cites W3102004375 @default.
W4294867521 cites W3105657706 @default.
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W4294867521 cites W3128184547 @default.
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W4294867521 cites W4220652032 @default.
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W4294867521 doi "https://doi.org/10.1002/adfm.202204760" @default.
W4294867521 hasPublicationYear "2022" @default.
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