Fully printable, strain-engineered electronic wrap for customizable soft electronics

Abstract: Rapid growth of stretchable electronics stimulates broad uses in multidisciplinary fields as well as industrial applications. However, existing technologies are unsuitable for implementing versatile applications involving adaptable system design and functions in a cost/time-effective way because of vacuum-conditioned, lithographically-predefined processes. Here, we present a methodology for a fully printable, strain-engineered electronic wrap as a universal strategy which makes it more feasible to implement va… Show more

“…When the bias was applied to the 5 × 5 LED array, all LEDs of the array emitted light brightly and operated normally, exhibiting a clear background image unlike the previous report in our group using the opaque electrodes (Figure 4b). [ 56 ] In addition, the stable LED operation was achieved due to the remarkable mechanical flexibility of the AgNW‐transferred PEDOT:PSS TCEs under the bending state with a diameter of 7 mm (Figure 4b and Video S1, Supporting Information). The warning‐sign array was also constructed as one of other practical examples to demonstrate highly customizable LED arrays with our TCEs.…”

Highly Customizable Transparent Silver Nanowire Patterning via Inkjet‐Printed Conductive Polymer Templates Formed on Various Surfaces

“…When the bias was applied to the 5 × 5 LED array, all LEDs of the array emitted light brightly and operated normally, exhibiting a clear background image unlike the previous report in our group using the opaque electrodes (Figure 4b). [ 56 ] In addition, the stable LED operation was achieved due to the remarkable mechanical flexibility of the AgNW‐transferred PEDOT:PSS TCEs under the bending state with a diameter of 7 mm (Figure 4b and Video S1, Supporting Information). The warning‐sign array was also constructed as one of other practical examples to demonstrate highly customizable LED arrays with our TCEs.…”

Highly Customizable Transparent Silver Nanowire Patterning via Inkjet‐Printed Conductive Polymer Templates Formed on Various Surfaces

“…Mechanically rigid regions on or in the elastomeric substrate are arbitrarily made to arrange active devices on the rigid regions to prevent breakage of the elements. At this time, most of the applied mechanical deformation is accepted as deformation of the interconnections [10][11][12].…”

82‐5: Late‐News Paper: Three Dimensionally Stretchable AMOLED Display for Freeform Displays

“…In 2017, Professor Hong's group reported a fully printable, strain-engineered soft platform for customizable wearable systems including passive-matrix iLED displays. 24 Figure 6 shows the key concept involving the strain-engineered stretchable platform implemented by embedding inkjet-printed rigid islands (PRIs) into the soft matrix and inkjet-printing stretchable interconnects between the islands. Since the printing processes can be used for PRI formation, universal or customized PRI arrays can be easily implemented.…”

“…Hollywood makes people dream, and the Society for Information Display makes those dreams come true! LG matches Samsung with its own 'world's first,' " The Verge, www.theverge.com/2013/ 1/8/3852438/battle-of-the-curved-oled-tvslg-matches-samsung-oled-curved-tv 24 (continued on page 38) offer a much bigger color envelope straightforwardly without immediately turning to more sophisticated technology like quantum dots or direct RGB backlights, for example. These changes all give us the opportunity to innovate.…”

Stretchable Displays: From Concept Toward Reality