Actual-Time Visualization Of Stretchable Electronics

– Commercial –

What if you happen to may see how stretchable electronics deform in actual time with out counting on simulations or harm? Be taught extra!

A analysis crew at POSTECH has developed a brand new know-how to investigate and visualize, in real-time, the deformation of “serpentine” constructions—key elements in stretchable electronics. The method is displayed by color adjustments.

Stretchable electronics have advanced from bendable and foldable designs to techniques able to full freeform deformation. These applied sciences are more and more utilized in shows, sensors, semiconductors, digital pores and skin, biomimetic robots, and shiny clothes.

– Commercial –

There are two fundamental approaches to stretchable know-how: growing rubber-like elastic supplies and designing constructions that combine with current applied sciences like semiconductors, shows, electrodes, and sensors. On this subject, serpentine interconnects—wavy, elastic connections—are essential for including flexibility to non-stretchable elements. Understanding how these constructions deform throughout stretching is important for advancing the know-how.

Actual-time serpentine deformation

Beforehand, learning deformation in serpentine constructions was solely attainable after bodily harm, akin to breaks, had occurred. This limitation pressured researchers to depend upon theoretical simulations or incomplete knowledge from earlier stretching cycles, making it troublesome to realize real-time insights into structural behaviour.

The crew addressed this subject by using structural color adjustments—nanoscale color shifts that happen throughout deformation. They developed a system utilizing Chiral Liquid Crystal Elastomer (CLCE), a mechanochromic materials that adjustments color when stretched, to attain exact, real-time visualization of deformation in serpentine constructions. The crew additionally validated their findings with theoretical finite factor evaluation, demonstrating the potential of this know-how to optimize structural designs.

Technological and industrial significance

The strategy adopted by the crew removes the necessity for classy nanofabrication and affords a transparent, real-time view of how serpentine constructions deform. It additionally offers sensible design pointers for optimizing these constructions in varied stretching circumstances, serving to speed up the commercialization of stretchable units.

The analysis permits exact analysis and design of connection constructions important to stretchable know-how. It’s anticipated to develop purposes and speed up commercialization in shows, semiconductors, sensors, digital pores and skin, sensible clothes, and mushy robotics.

Reference: Sang Hyun Han et al, Optical Visualization of Stretchable Serpentine Interconnects utilizing Chiral Liquid Crystal Elastomers, Superior Science (2024). DOI: 10.1002/advs.202408346