Improving the Stability of R2R Printed 1‐Bit Code Generator through Spin‐Coated Multilayer‐Encapsulation Method

Jung, Younsu; Kale, Amol Marotrao; Park, Jinwha; Park, Hyejin; Sun, Junfeng; Koirala, Gyan Raj; Shrestha, Kiran; Shrestha, Sagar; Parajuli, Sajjan; Maskey, Bijendra Bishow; Cho, Gyoujin

doi:10.1002/mame.201900867

Cited by 8 publications

(17 citation statements)

References 49 publications

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“…The coated CYTOP is critical to maintaining the consistent electrical characteristics of the printed SWCNT-TFTs without any variation due to the trapped charge generated by contacting the coating layers on printed SWCNT. [14] The thicknesses of the gate electrode, dielectric layer, and drain-source electrodes were 0.51, 1.8, and 0.5 µm, respectively; almost same as previously reported. [26] Moreover, the operation frequency of the printed SWCNT-TFT was 60 Hz based on a register type inverter at an operational power of 10 V DC.…”

Section: Introductionsupporting

confidence: 80%

“…The coated CYTOP is critical to maintaining the consistent electrical characteristics of the printed SWCNT‐TFTs without any variation due to the trapped charge generated by contacting the coating layers on printed SWCNT. [ 14 ]…”

Section: Resultsmentioning

confidence: 99%

“…In this work, the R2R gravure-printed SWCNT-TFT array was implemented as a flexible chemical sensor array by coating fluoropolymer, CYTOP, [13,14] as an electret [15,16] on the top of the SWCNT-TFT. [17,18] The electret is a dielectric material with a quasi-permanent and macroscopic field on its surface.…”

Section: Resultsmentioning

confidence: 99%

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Roll‐to‐Roll Gravure‐Printed Carbon Nanotube‐based Transistor Arrays for a Digital Column Chromatograph

Jung

Park

Sun

et al. 2021

Adv Materials Technologies

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Roll‐to‐roll (R2R)‐printed thin‐film transistor‐based devices have apparent advantages over their silicon‐based counterparts to explore a new device concept where form factor and cost are critical. Here, the R2R gravure‐printed single‐walled carbon nanotube (SWCNT)‐based thin‐film transistor (TFT) arrays are demonstrated to show advantages in developing inexpensive digital column chromatography (DiCC). The DiCC can be easily constructed by cutting and pasting the fluoropolymer, CYTOP, coated R2R gravure‐printed SWCNT‐TFT arrays on the inside wall of the column. The coated CYTOP acts as an electret and induces charges depending on dipole moments of the molecules in nonpolar eluents. Since the induced charges act as an n‐type dopant to the printed p‐type SWCNT‐TFT, the off‐currents of SWCNT‐TFT arrays are raised when analyte molecules with a dipole moment move to the CYTOP‐coated SWCNT‐TFT. By monitoring the off‐current variations of the CYTOP‐coated SWCNT‐TFT, the flow of molecules can be digitally monitored, and even the structural isomers of molecules can be digitally differentiated in real time.

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Section: Introductionsupporting

confidence: 80%

Section: Resultsmentioning

confidence: 99%

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Roll‐to‐Roll Gravure‐Printed Carbon Nanotube‐based Transistor Arrays for a Digital Column Chromatograph

Jung

Park

Sun

et al. 2021

Adv Materials Technologies

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“…The gate, dielectric, active, and drain-source layers were respectively printed through the R2R gravure printing process. The web tension and pressure of the impression rollers were maintained with accuracies of ±0.3 kgf and ±0.38 psi, respectively [ 15 ]. The control system for web tension and roll impression pressure from our previously reported setup was used without modification [ 15 , 16 ].…”

Section: Resultsmentioning

confidence: 99%

Rapid Uniformity Analysis of Fully Printed SWCNT-Based Thin Film Transistor Arrays via Roll-to-Roll Gravure Process

et al. 2023

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The roll-to-roll (R2R) gravure process has the potential for manufacturing single-wall carbon nanotubes (SWCNT)-based thin film transistor (TFT) arrays on a flexible plastic substrate. A significant hurdle toward the commercialization of the R2R-printed SWCNT-TFT array is the lack of a suitable, simple, and rapid method for measuring the uniformity of printed products. We developed a probing instrument for characterizing R2R gravure printed TFT, named PICR2R-TFT, for rapidly characterizing R2R-printed SWCNT-TFT array that can present a geographical distribution profile to pinpoint the failed devices in an SWCNT-TFT array. Using the newly developed PICR2R-TFT instrument, the current–voltage characteristics of the fabricated SWCNT-TFT devices could be correlated to various R2R-printing process parameters, such as channel length, roll printing length, and printing speed. Thus, by introducing a characterization tool that is reliable and fast, one can quickly optimize the R2R gravure printing conditions to enhance product uniformity, thereby maximizing the yield of printed SWCNT-TFT arrays.

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“…The detailed printing process and basic performance of the R2R‐printed CMOS ring oscillator were reported in a previous paper. [ 39 ] In addition, the optical image and circuit diagram of the printed CMOS ring oscillator, which consists of five p‐type transistors and five n‐type transistors, are shown in Figure S9, Supporting Information. With the all‐printed Ag−PEDOT/IGZO/carbon‐based rectenna, we were able to wirelessly operate the R2R‐printed CMOS ring oscillator to generate a triangle wave (±4 V) with 2 Hz through a smartphone's NFC carrier signal (Figure 5c).…”

Section: Resultsmentioning

confidence: 99%

A Printed Wireless Triangle‐Wave Generator via a Smartphone

et al. 2021

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An all‐printed wireless triangle‐wave generator is needed to produce a printed wireless and disposable cyclic voltammetry (CV)‐based biosensor to detect redox‐active analytes. The generator should produce positive and negative potentials from the smartphone's near‐field‐communication (NFC) (13.56 MHz) carrier signal. However, the printed triangle‐wave generator that contains rectenna and a ring oscillator fails to wirelessly operate with a smartphone because the polarized (±) DC power from the NFC carrier signal of the smartphone could not be provided through the utilization of a printed Schottky diode. Herein, an n‐type indium gallium zinc oxide (IGZO)‐based ink is formulated to print the Schottky junction with a high work function of the printed electrode provided by in situ doping of printed poly(3,4‐ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) on Ag electrode. The printed IGZO‐based rectenna could wirelessly harvest polarized (±) DC 10 V from the smartphone to generate a triangle wave with positive and negative potentials through the printed ring oscillator.

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Improving the Stability of R2R Printed 1‐Bit Code Generator through Spin‐Coated Multilayer‐Encapsulation Method

Cited by 8 publications

References 49 publications

Roll‐to‐Roll Gravure‐Printed Carbon Nanotube‐based Transistor Arrays for a Digital Column Chromatograph

Roll‐to‐Roll Gravure‐Printed Carbon Nanotube‐based Transistor Arrays for a Digital Column Chromatograph

Rapid Uniformity Analysis of Fully Printed SWCNT-Based Thin Film Transistor Arrays via Roll-to-Roll Gravure Process

A Printed Wireless Triangle‐Wave Generator via a Smartphone

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