Modulation of the Electrical Properties of VO<sub>2</sub> Nanobeams Using an Ionic Liquid as a Gating Medium

Ji, Heng; Wei, Jian; Natelson, Douglas

doi:10.1021/nl300741h

Cited by 157 publications

(185 citation statements)

References 23 publications

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“…However, it is often difficult to achieve such high electric fields by conventional dielectric gates. 1,2 Recently, extra-high electric fields are achieved by approaches such as Schottky junctions, 3,4 polar adsorbates 5,6 or ionic liquids [7][8][9][10][11][12] as dielectric gates in field-effect transistor devices. 13,14 For example, Xu et al 15 studied the modulation of grain boundary barriers in ZnMgO/ZnO/sapphire heterostructure by DI water and they found that the electronic conduction property of ZnO layer far beneath the surface could be switched from Ohmic to Schottky junction.…”

Section: Introductionmentioning

confidence: 99%

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

et al. 2015

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We studied using organic liquids (cyclohexane, n-butanol, and ethylene glycol) to modulate the transport properties at room temperature of an epitaxial VO2 film on a VO2/Al2O3 heterostructure. The resistance of the VO2 film increased when coated with cyclohexane or n-butanol, with maximum changes of 31% and 3.8%, respectively. In contrast, it decreased when coated with ethylene glycol, with a maximum change of −7.7%. In all cases, the resistance recovered to its original value after removing the organic liquid. This organic-liquid-induced reversible resistance switching suggests that VO2 films can be used as organic molecular sensors.

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Section: Introductionmentioning

confidence: 99%

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

et al. 2015

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“…[5][6][7][8] In addition, this material has attracted much attention for its potential applications in ultrafast optical and electrical switching. [9][10][11][12][13] Therefore, much effort has been made to modulate the MIT by various approaches such as strain engineering, 14,15 ionic liquid gating, [16][17][18] electric field-induced oxygen vacancy, 19 and chemical doping. [20][21][22][23][24][25] In terms of chemical doping, using metal elements such as tungsten during growth can dramatically change the transition properties 20,26 , but it is an irreversible process.…”

mentioning

confidence: 99%

Hydrogen Diffusion and Stabilization in Single-Crystal VO₂ Micro/Nanobeams by Direct Atomic Hydrogenation

Lin¹,

Ji²,

Swift³

et al. 2014

Nano Lett.

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We report measurements of the diffusion of atomic hydrogen in single crystalline VO 2 micro/nanobeams by direct exposure to atomic hydrogen, without catalyst. The atomic hydrogen is generated by a hot filament, and the doping process takes place at moderate temperature (373 K). Undoped VO 2 has a metal-to-insulator phase transition at ~340 K between a high -temperature, rutile, metallic phase and a low-temperature, monoclinic, insulating phase with a resistance exhibiting a semiconductor-like temperature dependence.Atomic hydrogenation results in stabilization of the metallic phase of VO 2 micro/nanobeam down to 2 K, the lowest point we could reach in our measurement setup. Optical characterization shows that hydrogen atoms prefer to diffuse along the c-axis of rutile (a-axis of monoclinic) VO 2 , along the oxygen "channels". Based on observing the movement of the hydrogen diffusion front in single crystalline VO 2 beams, we estimate the diffusion constant

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“…[19][20][21][22] According to Ji et al, 19 stray water in an IL gate induces large, slow, and hysteretic conductance modulation under applying gate bias. This operation allows tuning of the activation energy and changes conductance by an order of magnitude, resulting in hydrogen doping through the electrochemical reaction of water.…”

Section: Overview Of Electrochemical Transistorsmentioning

confidence: 99%

“…10,15 All of these methods require a high temperature of at least 150 • C. Recently, electric fields have been used for both hydrogenation and oxidation of oxides at room temperature. 16,[19][20][21] For example, a strong electric field in an ionic liquid (IL) gate induces oxygen vacancy formation 042303-2 T. Kanki and H. Tanaka APL Mater. 5, 042303 (2017) in VO 2 .…”

Section: Introductionmentioning

confidence: 99%

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Research Update: Nanoscale electrochemical transistors in correlated oxides

Kanki

Tanaka

2017

APL Materials

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Large reversible changes of the electronic transport properties of solid-state oxide materials induced by electrochemical fields have received much attention as a new research avenue in iontronics. In this research update, dramatic transport changes in vanadium dioxide (VO2) nanowires were demonstrated by electric field-induced hydrogenation at room temperature through the nanogaps separated by humid air in a field-effect transistor structure with planar-type gates. This unique structure allowed us to investigate hydrogen intercalation and diffusion behavior in VO2 channels with respect to both time and space. Our results will contribute to further strategic researches to examine fundamental chemical and physical properties of devices and develop iontronic applications, as well as offering new directions to explore emerging functions for sensing, energy, and neuromorphologic devices combining ionic and electronic behaviors in solid-state materials.

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Modulation of the Electrical Properties of VO₂ Nanobeams Using an Ionic Liquid as a Gating Medium

Cited by 157 publications

References 23 publications

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

Hydrogen Diffusion and Stabilization in Single-Crystal VO₂ Micro/Nanobeams by Direct Atomic Hydrogenation

Research Update: Nanoscale electrochemical transistors in correlated oxides

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Modulation of the Electrical Properties of VO2 Nanobeams Using an Ionic Liquid as a Gating Medium

Cited by 157 publications

References 23 publications

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

Resistance switching of epitaxial VO2/Al2O3 heterostructure at room temperature induced by organic liquids

Hydrogen Diffusion and Stabilization in Single-Crystal VO2 Micro/Nanobeams by Direct Atomic Hydrogenation

Research Update: Nanoscale electrochemical transistors in correlated oxides

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Modulation of the Electrical Properties of VO₂ Nanobeams Using an Ionic Liquid as a Gating Medium

Hydrogen Diffusion and Stabilization in Single-Crystal VO₂ Micro/Nanobeams by Direct Atomic Hydrogenation