Electrospray deposition of a graphene-oxide thin film, its characterization and investigation of its resistive switching performance

Mustafa, Mumtaz Begum; Awais, Muhammad Naeem; Pooniah, Ganeshthangaraj; Choi, Kyung Hyun; Ko, Jeong Beom; Doh, Yang Hoi

doi:10.3938/jkps.61.470

Cited by 27 publications

(16 citation statements)

References 44 publications

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“…Graphene or graphene oxide thin films deposited on various substrates by ESD have been reported in previous literatures . The thickness and surface morphology have been tuned to obtain desired properties for graphene or graphene oxide films . In present work, by integrating ESD with a continuous roll‐to‐roll process, large area freestanding graphene papers was fabricated with a high manufacturing efficiency, demonstrating the potential of the mass production of GPs.…”

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confidence: 75%

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Large‐Area Freestanding Graphene Paper for Superior Thermal Management

et al. 2014

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Large-area freestanding graphene papers (GPs) are fabricated by electrospray deposition integrated with a continuous roll-to-roll process. Upon mechanical compaction and thermal annealing, GPs can achieve a thermal conductivity of as high as 1238.3-1434 W m(-1) K(-1) . The super-thermally conductive GPs display an outstanding heat-spread ability and are more efficient in removing hot spots than Cu and Al foils.

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mentioning

confidence: 75%

“…Thus the thickness of film can be varied from hundreds of nanometers to hundreds of micrometers. Graphene or graphene oxide thin films deposited on various substrates by ESD have been reported in previous literatures . The thickness and surface morphology have been tuned to obtain desired properties for graphene or graphene oxide films .…”

mentioning

confidence: 99%

Large‐Area Freestanding Graphene Paper for Superior Thermal Management

et al. 2014

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“…For current-voltage (I-V) characteristics the ITO/active material/Ag device was biased by connecting Ag, the top electrode to driving voltage whereas ITO, the bottom electrode was grounded. The characterization was performed by initially applying a forming voltage, which is necessary for stable resistive switching operation [16,41,47] as shown in Fig. 7.…”

Section: Electrical Characterizationmentioning

confidence: 99%

“…Recently PVP and graphene family of materials have been explored both individually and in form of nanocomposites for applications in chemical sensing [36], super capacitors [37], solar cells [38], electrodes [39], TFTs [40] and memristors [20,41,42]. The nanocomposites impart new functionality and applications to materials compared to when the same materials are used alone.…”

Section: Introductionmentioning

confidence: 99%

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

Choi¹,

Ali²,

Na³

2015

Physica B: Condensed Matter

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“…There have been numerous studies of thin-film chemical sensors fabricated by drop-casting, spray coating, spin coating, and inkjet printing suspensions of graphene, GO, and reduced graphene oxide (rGO) in a variety of solutions [15][16][17][18][19][20][21][22][23]. In particular, electrosprayed graphene, GO, and rGO thin-film structures have been reported for supercapacitor electrodes [24], resistive switch applications [25], and humidity sensors [26].…”

Section: Introductionmentioning

confidence: 99%

Electrospray-printed nanostructured graphene oxide gas sensors

Taylor¹,

Velásquez–García

2015

Nanotechnology

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We report low-cost conductometric gas sensors that use an ultrathin film made of graphene oxide (GO) nanoflakes as transducing element. The devices were fabricated by lift-off metallization and near-room temperature, atmospheric pressure electrospray printing using a shadow mask. The sensors are sensitive to reactive gases at room temperature without requiring any post heat treatment, harsh chemical reduction, or doping with metal nanoparticles. The sensors' response to humidity at atmospheric pressure tracks that of a commercial sensor, and is linear with changes in humidity in the 10%-60% relative humidity range while consuming <6 μW. Devices with GO layers printed by different deposition recipes yielded nearly identical response characteristics, suggesting that intrinsic properties of the film control the sensing mechanism. The gas sensors successfully detected ammonia at concentrations down to 500 ppm (absolute partial pressure of ∼5×10 −4 T) at ∼1 T pressure, room temperature conditions. The sensor technology can be used in a great variety of applications including air conditioning and sensing of reactive gas species in vacuum lines and abatement systems.

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Electrospray deposition of a graphene-oxide thin film, its characterization and investigation of its resistive switching performance

Cited by 27 publications

References 44 publications

Large‐Area Freestanding Graphene Paper for Superior Thermal Management

Large‐Area Freestanding Graphene Paper for Superior Thermal Management

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

Electrospray-printed nanostructured graphene oxide gas sensors

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