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W2891946843 abstract "Abstract The metal–insulator transition of vanadium dioxide (VO 2 ) is exceptionally sensitive to charge density and electron orbital occupancy. Thus three‐terminal field‐effect transistors with VO 2 channels are widely adopted to control the phase transition by external gating voltage. However, current leakage, electrical breakdown, or interfacial electrochemical reactions may be inevitable if conventional solid dielectrics or ionic‐liquid layers are used, which possibly induce Joule heating or doping in the VO 2 layer and make the voltage‐controlled phase transition more complex. Here, a triboelectric nanogenerator (TENG) and a VO 2 film are combined for a novel TENG‐VO 2 device, which can overcome the abovementioned challenges and achieve electron‐doping‐induced phase modulation. By taking advantage of the TENG structure, electrons can be induced in the VO 2 channel and thus adjust the electronic states of the VO 2 , simultaneously. The modulation degree of the VO 2 resistance depends on the temperature, and the major variation occurs when the temperature is in the phase‐transition region. The accumulation of electrons in the VO 2 channel also is simulated by finite element analysis, and the electron doping mechanism is verified by theoretical calculations. The results provide a promising approach to develop a novel type of tribotronic transistor and new electronic doping technology." @default.
W2891946843 created "2018-09-27" @default.
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W2891946843 date "2018-09-21" @default.
W2891946843 modified "2023-10-17" @default.
W2891946843 title "Dynamic Electronic Doping for Correlated Oxides by a Triboelectric Nanogenerator" @default.
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W2891946843 cites W1966756219 @default.
W2891946843 cites W1968519856 @default.
W2891946843 cites W1970768434 @default.
W2891946843 cites W1979544533 @default.
W2891946843 cites W1981368803 @default.
W2891946843 cites W1987441899 @default.
W2891946843 cites W1991525455 @default.
W2891946843 cites W1991658085 @default.
W2891946843 cites W1993378267 @default.
W2891946843 cites W1996328076 @default.
W2891946843 cites W1997166311 @default.
W2891946843 cites W2007759696 @default.
W2891946843 cites W2019618330 @default.
W2891946843 cites W2022641874 @default.
W2891946843 cites W2033146491 @default.
W2891946843 cites W2042232798 @default.
W2891946843 cites W2046717976 @default.
W2891946843 cites W2047278878 @default.
W2891946843 cites W2047802539 @default.
W2891946843 cites W2049958425 @default.
W2891946843 cites W2061000251 @default.
W2891946843 cites W2067627063 @default.
W2891946843 cites W2073713957 @default.
W2891946843 cites W2076462975 @default.
W2891946843 cites W2078437191 @default.
W2891946843 cites W2083222334 @default.
W2891946843 cites W2086516808 @default.
W2891946843 cites W2112545124 @default.
W2891946843 cites W2117581782 @default.
W2891946843 cites W2122398332 @default.
W2891946843 cites W2135238643 @default.
W2891946843 cites W2136310054 @default.
W2891946843 cites W2137422413 @default.
W2891946843 cites W2138850857 @default.
W2891946843 cites W2168100296 @default.
W2891946843 cites W2254639327 @default.
W2891946843 cites W2264502895 @default.
W2891946843 cites W2271352993 @default.
W2891946843 cites W2293071340 @default.
W2891946843 cites W2294347437 @default.
W2891946843 cites W2321418891 @default.
W2891946843 cites W2322700436 @default.
W2891946843 cites W2439661267 @default.
W2891946843 cites W2468686158 @default.
W2891946843 cites W2525636026 @default.
W2891946843 cites W2551060382 @default.
W2891946843 cites W2554858755 @default.
W2891946843 cites W2556432532 @default.
W2891946843 cites W2556967427 @default.
W2891946843 cites W2558840054 @default.
W2891946843 cites W2607977274 @default.
W2891946843 cites W2611354059 @default.
W2891946843 cites W2701942714 @default.
W2891946843 cites W2729815799 @default.
W2891946843 cites W2735209410 @default.
W2891946843 cites W2735638929 @default.
W2891946843 cites W2745228172 @default.
W2891946843 cites W2747386022 @default.
W2891946843 cites W2789237828 @default.
W2891946843 cites W2809083310 @default.
W2891946843 doi "https://doi.org/10.1002/adma.201803580" @default.
W2891946843 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30239043" @default.
W2891946843 hasPublicationYear "2018" @default.
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