Most stretchable materials in nature, such as rubber, demonstrate shrinkage in width when stretched lengthwise, thus resulting in image distortion. This was also the same in cases of the rubber-based stretchable displays.

The KIMM research team applied mechanical metamaterials with a negative Poisson's ratio to a circuit board. The Poisson's ratio refers to the ratio at which the width of material shrinks when it is stretched lengthwise. When a mechanical metamaterial with a Poisson's ratio of -1 is stretched lengthwise, it demonstrates the effect of stretching at the same ratio widthwise. Thus, a display using such materials is characterized by images that are not distorted.

In developing this new meta-display manufacturing technology, the team applied mechanical metamaterial designs and manufacturing technology to the world's leading large-area micro-LED roll transfer technology. Based on the successful results of this project, the research team plans to conduct follow-up research on micro-LED displays for ultra-realistic metaverses.

Furthermore, in order to respond to the growing mini-LED and graphene industries, the team has established research institute spin-off company, YTS Micro-Tech and MCK-Tech to promote the practical use of these new technologies.