A novel patterning method for three-dimensional paper-based devices by using inkjet-printed water mask

Punpattanakul, Krirktakul; Kraduangdej, Sattawat; Jiranusornkul, Netchanok; Chiaranairungroj, Muthita; Pimpin, Alongkorn; Palaga, Tanapat; Srituravanich, Werayut

doi:10.1007/s10570-018-1712-8

Cited by 15 publications

(8 citation statements)

References 32 publications

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“…The technology is compatible with conventional manufacturing techniques for 3D paper-based devices and reduces the number of layers of paper required to form 3D devices, thus making quality control of the device easier. Punpattanakul et al 112 used an inkjet printer to successfully create a three-dimensional fluid channel network with multiple fluid channel intersections on a paper layer without complex programming. The hydrophilic pattern was printed on both sides of the paper using an inkjet printer as a protective mask, and then immersed in a non-polar solution containing a hydrophobic substance to form a hydrophobic barrier on the paper.…”

Section: Fabrication Of 3d Paper-based Devicesmentioning

confidence: 99%

Paper-based sensors for diagnostics, human activity monitoring, food safety and environmental detection

et al. 2022

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Section: Fabrication Of 3d Paper-based Devicesmentioning

confidence: 99%

Paper-based sensors for diagnostics, human activity monitoring, food safety and environmental detection

et al. 2022

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“…Paper has attracted considerable interest as a substrate for printed electronics applications, thanks to its low cost, mechanical flexibility, recyclability, and scalable manufacturability (Punpattanakul et al 2018;Siegel et al 2010;Tobjörk et al 2012). As a result, different devices including solar cells (Li et al 2018), touch pads (Mazzeo et al 2012), batteries (Jabbour et al 2013), and sensors (Cao et al 2018) were fabricated on paper substrates.…”

Section: Introductionmentioning

confidence: 99%

One-step deposition of hydrophobic coatings on paper for printed-electronics applications

et al. 2019

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The ability to pattern highly conductive features on paper substrates is critically important for applications in radio frequency identification (RFID) tags, displays, sensors, printed electronics, and diagnostics. Ink-jet printing particle-free reactive silver inks is an additive, material efficient and versatile strategy for fabrication of highly conductive patterns; however, the intrinsic wetting properties of cellulose based papers are not suitable to serve as substrates for this process. This study reports one-step and practical modification of the surface of paper substrates using industrially available materials. The paper substrates were dip-coated with films of hydrocarbon and fluorocarbon based polymeric resins. Ink-jet printing particle-free reactive silver inks on the modified paper substrates followed by fast thermal annealing resulted in highly conductive patterns. The coatings improved the conductivity of the patterns and reduced the number of printing layers required to obtain conductivity. We finally demonstrated fabrication of a printed RFID tag on the coated paper substrates operating at the frequency range of 865-870 MHz. Cellulose (2019) 26:3503-3512 https://doi.org/10.1007/s10570-019-02326-y( 0123456789().,-volV) ( 01234567 89().,-volV) Graphical abstract Hydrophobic resin Dip-coating Ag Ink 1 µm 20 µm

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“…Therefore, we aimed to combine commercial metal oxide gas sensors with additional sensors, which are inexpensive, simple to utilize, and compatible with the gas samples. The previous method developed by [16] is promising to fulfill these requirements. In this study [16], the authors proposed an ink-jet printer as a simple approach to produce paper substrates for fabricating colorimetric odor sensors.…”

Section: The Proposed Methodsmentioning

confidence: 99%

“…The previous method developed by [16] is promising to fulfill these requirements. In this study [16], the authors proposed an ink-jet printer as a simple approach to produce paper substrates for fabricating colorimetric odor sensors. Therefore, we will utilize paper-based colorimetric sensors fabricated using this method to enhance the selectivity of metal oxide sensors array by jointly integrating them into a single system unit.…”

Section: The Proposed Methodsmentioning

confidence: 99%

“…Studies such as [14] employed a flatbed scanner to read the color profiles for the classification of different kinds of honey. In terms of benefits, the paper-based colorimetric sensors are more user-friendly than other commercially available gas sensors and require less complicated fabrication processes; the previously developed methods such as [15,16] used inkjet printers to fabricate the paper-based sensors. In addition, the paper substrate is the least expensive among other materials.…”

Section: List Of Tablesmentioning

confidence: 99%

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A hybrid electronic nose system based on metal oxide semiconductor gas sensors and compact paper-pased colorimteric sensors for volatile organic compounds classification

Maw¹

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Commercial metal oxide semiconductor (MOS) sensors usually employed in electronic noses (e-noses) are well known for being low-cost, portability, and ease of use. However, these sensors can only identify a limited number of odors due to insufficient selectivity. Recent studies improved the selectivity by jointly integrating the MOS sensors with additional sensor sources. However, the published hybrid systems involved complex fabrication and measurement procedures. On the contrary, this work utilizes paper-based colorimetric sensors which are simpler and easier to use. This proposed hybrid system consists of 8 commercial metal oxide sensors and a paper-based colorimetric sensor coated with phenol red, methyl red, and methylene blue. Six volatile organic compounds (VOCs) are classified using this developed hybrid system. Each sensor system is compared with the hybrid system using principal component analysis (PCA) and hierarchical clustering analysis (HCA). It was found that the metal oxide sensors alone can identify 5 VOCs, while the colorimetric sensors can identify 2 VOCs at best. Finally, the hybrid system can discriminate all the 6 target VOCs based on 12 features selected by ANOVA (Analysis of Variance) feature selection coupled with support vector machine (SVM) classfier.

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A novel patterning method for three-dimensional paper-based devices by using inkjet-printed water mask

Cited by 15 publications

References 32 publications

Paper-based sensors for diagnostics, human activity monitoring, food safety and environmental detection

Paper-based sensors for diagnostics, human activity monitoring, food safety and environmental detection

One-step deposition of hydrophobic coatings on paper for printed-electronics applications

A hybrid electronic nose system based on metal oxide semiconductor gas sensors and compact paper-pased colorimteric sensors for volatile organic compounds classification

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