Large-scale fabrication of all-inkjet-printed resistors and WORM memories on flexible polymer films with high yield and stability

Ramón, Eloi; Sowade, Enrico; Martínez‐Domingo, Carme; Mitra, Kalyan Yoti; Alcalde, Ana; Baumann, Reinhard R.; Carrabina, Jordi

doi:10.1088/2058-8585/abdb40

Cited by 19 publications

(16 citation statements)

References 22 publications

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“…Solution‐based manufacturing processes have been extensively studied due to their cost‐effectiveness and high throughput with high uniformity for the fabrication of printed electronic devices. [ 1–3 ] Therefore, several research groups have focused on solution‐processed organic and oxide semiconductors for both n ‐type and p ‐type thin‐film transistors and exhibit high potential for state‐of‐the‐art cost‐effective electronic devices with good electrical performances. [ 4–6 ] The memory element is an integral part of the electronic devices to store information and therefore the solution‐processed memory element will be instrumental for easy compatibility and simple integration into flexible and printed electronic devices.…”

Section: Introductionmentioning

confidence: 99%

Perhydropolysilazane Charge‐Trap Layer in Solution‐Processed Organic and Oxide Memory Thin‐Film Transistors

Boampong

Lee

et al. 2022

Adv Elect Materials

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The charge trapping property of spin‐coated perhydropolysilazane (PHPS) layers for solution‐processed organic and oxide thin film memory transistors is demonstrated. The nitrogen content within the PHPS layer is decreased by increasing the annealing temperatures from room temperature to 450 °C. The PHPS layer added to the SiO2 gate insulator in the charge trap memories (CTMs) shows good memory functionalities which are electrically programmable, and is erased either electrically or optically depending on the semiconductor used. The stored or erased charges in the p‐type semiconductor‐based CTM result in relatively large threshold voltage shifts (∆VTH > 60 V) and large memory on‐ and off‐current ratio (IM,ON/IM,OFF > 103) with the respective memory output current extrapolated to 108 s. The n‐type CTM shows ∆VTH ≈ 20 V, IM,ON/IM,OFF of 0.5 × 103 and is extrapolated to 1015 s. It is concluded that the origin of the charge‐traps in both the p‐type and n‐type CTMs mainly originates from the PHPS charge trap layer (CTL) and greatly occurs in highly concentrated nitrogen PHPS layers. There is a high possibility of using the PHPS CTL in a wide variety of cost‐effective CTMs even with high temperature processed semiconductors.

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Section: Introductionmentioning

confidence: 99%

Perhydropolysilazane Charge‐Trap Layer in Solution‐Processed Organic and Oxide Memory Thin‐Film Transistors

Boampong

Lee

et al. 2022

Adv Elect Materials

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“…Similarly to 3D printers, inkjet printers can be used for manufacturing organic electronics on an industrial scale, but also in homes and workshops to prepare small electronic projects. Inkjet printing does not require high temperatures, a vacuum, lithography, or other costly subtractive methods 1 . Moreover, electronic elements can be produced on flexible, transparent foils 2 , 3 .…”

Section: Introductionmentioning

confidence: 99%

“…The important aspect of this devices is their thermal and time stability due to use of stable in air DPPDTT as the active OTFT layer and photooxidised P3HT. In most articles the authors present resistors made by conductors 1 , 7 , 24 . The high resistance is achieved by printing very small patterns or by incomplete sinterization of silver nanoparticles ink.…”

Section: Introductionmentioning

confidence: 99%

Fully inkjet-printed flexible organic voltage inverters as a basic component in digital NOT gates

Luczak

Mitra

Baumann

et al. 2022

Sci Rep

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In relation to conventional vacuum-based processing techniques inkjet printing enables upscaling fabrication of basic electronic elements, such as transistors and diodes. We present the fully inkjet printed flexible electronic circuits, including organic voltage inverter which can work as a NOT logic gate. For this purpose the special ink compositions were formulated to preparation of gate dielectric layer containing poly (4-vinylphenol) and of the semiconductor layer poly[2,5-(2-octyldodecyl)-3,6-diketopyrrolopyrrole-alt-5,5-(2,5-di(thien-2-yl)thieno [3,2-b]thiophene)]. A printed photoxidized poly (3-hexyltiophene) semiconductor was used as the active layer of the resistors. The operation of the printed inverters and NOT logic gates was analyzed based on the DC current–voltage characteristics of the devices. The resistance of the devices to atmospheric air was also tested. Not encapsulated samples stored for three years under ambient conditions. Followed by annealing to remove moisture showed unchanged electrical parameters in comparison to freshly printed samples.

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“…[5] However, to implement the visions of printed electronics, breakthroughs should be made in the design and printing of the most ubiquitous electronic components, like: transistors, capacitors, resistors, diodes, and memories. [6][7][8][9][10] Among them, metal oxide (MO) diodes play a crucial role for example in voltage regulation and surge protection that are required for wireless power transmission technology and in near-field communication when applied in flexible radio frequency identification (RFID) tags. [8] For this application, the diodes should have low turnon voltage, high cut-off frequency, and low leakage current.…”

Section: Introductionmentioning

confidence: 99%

Printed zinc tin oxide diodes: from combustion synthesis to large-scale manufacturing

Carlos¹,

Branquinho²,

Jansson³

et al. 2022

Flex. Print. Electron.

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Printed metal oxide devices have been widely desired in flexible electronic applications to allow direct integration on foils and to reduce electronic waste and associated costs. Especially, semiconductor devices made from non-critical raw materials, such as Zn, Sn (and not, for example, In), have gained much interest. Despite considerable progress in the field, the upscale requirements from lab to fab scale to produce these materials and devices remain a challenge. In this work, we report the importance of solution combustion synthesis (SCS) when compared with sol-gel in the production of zinc tin oxide (ZTO) thin films using a solvent (1-methoxypropanol) that has lower environmental impact than the widely used and toxic 2-methoxyethanol. To assure the compatibility with low-cost flexible substrates in high-throughput printing techniques, a low annealing temperature of 140 ºC was achieved for these thin films by combining SCS and infrared (IR) annealing in a short processing time. These conditions allowed the transition from spin-coating (lab scale) to flexographic printing (fab scale) at a printing speed of 10 m/min in a roll-to-roll (R2R) pilot line. The ZTO (1:1 Zn:Sn-ratio) diodes show a rectification ratio of 103, a low operation voltage (≤ 3 V), promising reproducibility and low variability. The results provide the basis for further optimization (device size, encapsulation) to meet the requirements of diodes in flexible electronics applications such as passive-matrix addressing, energy harvesting and rectification.

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Large-scale fabrication of all-inkjet-printed resistors and WORM memories on flexible polymer films with high yield and stability

Cited by 19 publications

References 22 publications

Perhydropolysilazane Charge‐Trap Layer in Solution‐Processed Organic and Oxide Memory Thin‐Film Transistors

Perhydropolysilazane Charge‐Trap Layer in Solution‐Processed Organic and Oxide Memory Thin‐Film Transistors

Fully inkjet-printed flexible organic voltage inverters as a basic component in digital NOT gates

Printed zinc tin oxide diodes: from combustion synthesis to large-scale manufacturing

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