Fabrication of graphene-nanoflake/poly(4-vinylphenol) polymer nanocomposite thin film by electrohydrodynamic atomization and its application as flexible resistive switching device

Choi, Kyung Hyun; Ali, J.; Na, Kyoung-Hoan

doi:10.1016/j.physb.2015.07.028

Cited by 17 publications

(3 citation statements)

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“…The internal structure of the ZrO 2 thin film may be destroyed, and the formation of conductive filaments became difficult, resulting in increased of resistance value. This limiting radius of 12.55 mm is close to that (about 1.8 cm) reported by Kyung Hyun Choi et al [25]. They also used the PET/ITO as the substrate.…”

Section: Xsupporting

confidence: 86%

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates

Chen

Yin

et al. 2017

Nanotechnology

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We demonstrate a low-cost and facile photochemical solution method to prepare the ZrO resistive switching arrays as memristive units on flexible PET/ITO substrates. ZrO solution sensitive to UV light of 337 nm was synthesized using zirconium n-butyl alcohol as the precursor, and benzoylacetone as the complexing agent. After the dip-coated ZrO gel films were irradiated through a mask under the UV lamp (with wavelength of 325-365 nm) at room temperature and rinsed in ethanol, the ZrO gel arrays were obtained on PET/ITO substrates. Subsequently, the ZrO gel arrays were irradiated by deep UV light of 254 and 185 nm at 150 °C, resulting in the amorphous ZrO memristive micro-arrays. The ZrO units on flexible PET/ITO substrates exhibited excellent memristive properties. A high ratio of 10 of on-state and off-state resistance was obtained. The resistive switching behavior of the flexible device remained stable after being bent for 10 times. The device showed stable flexibility up to a minimum bending diameter of 1.25 cm.

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Section: Xsupporting

confidence: 86%

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates

Chen

Yin

et al. 2017

Nanotechnology

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“…One of the actively researched piezoceramic devices is the atomizer, which utilizes a piezoceramic actuator to convert liquid to atomized particles through high frequency ultrasonic vibration; it can cause ultrafine droplet atomization. Ultrafine droplet atomization is widely applied in combustion with liquid fuel [20], inhalation therapy [21][22][23], printed circuits [24], three-dimensional (3D) prototyping [25], precise surface coating [26,27], spray drying [28], spray cooling [29,30], and inkjet printing [31], among other fields. Ultrafine droplet atomization has high important application potential, and scholars began to focus on atomization devices.…”

Section: Introductionmentioning

confidence: 99%

Effect of the Dynamic Cone Angle on the Atomization Performance of a Piezoceramic Vibrating Mesh Atomizer

2019

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In this paper, we find that the dynamic cone angle of a piezoceramic atomizer is linked to periodic changes in the volume of the micro-cone hole of the atomizer, and such changes affect atomization performance. Firstly, we explained the theory of the dynamic cone angle inside the vibrating mesh atomizer. Then, we analyzed the flow status of liquid in the micro-cone hole, and the one-way flow Rof the liquid is caused by the difference of diffuser and nozzle flow resistance. The volume change of the micro-cone hole and the liquid chamber can produce atomization. Furthermore, we developed the experiment to measure the atomization rate, atomization height, and the diameter of the atomized particles. The experiments reveal that the atomization rate and height are much larger when the vibrating mesh atomizer is working in the forward path than in the reverse one. The atomization rate and atomization height increase as the working voltage increases. Meanwhile, with increasing driving voltage to the piezoceramic actuator, the atomization particle size decrease and the atomized particle size distribution is more concentrated. Finally, the size of the micro-cone hole was measured using a microscope with different direct current (DC) voltages, further demonstrating the existence of the dynamic cone angle.

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“…The study also describes the signicance and compatibility of the approach for solution process technologies to integrate the as synthesized GQDs in printed electronic devices, without addition of new solvents that may harm quality of GQDs. Here the solution processable GQDs embedded polymer thin lms have been printed using electrohydrodynamic atomization (EHDA) 26 and employed in all printed exible array of resistive switching devices. The successful integration of the approach with solution processable printing can assist future development of other GQDs based, thin lm electronic and optoelectronic devices.…”

Section: Introductionmentioning

confidence: 99%

Direct synthesis of graphene quantum dots from multilayer graphene flakes through grinding assisted co-solvent ultrasonication for all-printed resistive switching arrays

et al. 2016

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Fabrication of graphene-nanoflake/poly(4-vinylphenol) polymer nanocomposite thin film by electrohydrodynamic atomization and its application as flexible resistive switching device

Cited by 17 publications

References 50 publications

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates

Effect of the Dynamic Cone Angle on the Atomization Performance of a Piezoceramic Vibrating Mesh Atomizer

Direct synthesis of graphene quantum dots from multilayer graphene flakes through grinding assisted co-solvent ultrasonication for all-printed resistive switching arrays

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Fabrication of graphene-nanoflake/poly(4-vinylphenol) polymer nanocomposite thin film by electrohydrodynamic atomization and its application as flexible resistive switching device

Cited by 17 publications

References 50 publications

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO2 resistive switching arrays on PET/ITO substrates

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO2 resistive switching arrays on PET/ITO substrates

Effect of the Dynamic Cone Angle on the Atomization Performance of a Piezoceramic Vibrating Mesh Atomizer

Direct synthesis of graphene quantum dots from multilayer graphene flakes through grinding assisted co-solvent ultrasonication for all-printed resistive switching arrays

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Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates

Ultraviolet-assisted direct patterning and low-temperature formation of flexible ZrO₂ resistive switching arrays on PET/ITO substrates