Designed wrinkles for optical encryption and flexible integrated circuit carrier board.
Shilong ZhongZhaoxiang ZhuQizheng HuoYubo LongLi GongZetong MaDingshan YuYi ZhangWeien LiangWei LiuCheng WangZhongke YuanYuzhao YangShaolin LuYujie ChenZhikun ZhengXu Dong ChenPublished in: Nature communications (2024)
Patterns on polymers usually have different mechanical properties as those of the substrates, causing deformation or distortion and even detachment of the patterns from the polymer substrates. Herein, we present a wrinkling strategy, which utilizes photolithography to define the area of stress distribution by light-induced physical crosslinking of polymers and controls diffusion of residual solvent to redistribute the stress and then offers the same material for patterns as substrate by thermal polymerization, providing uniform wrinkles without worrying about force relaxation. The strategy allows the recording and hiding of up to eight switchable images in one place that can be read by the naked eye without crosstalk, applying the wrinkled polymer for optical anti-counterfeiting. The wrinkled polyimide film was also utilized to act as a substrate for the creation of fine copper circuit by a full-additive process. It generates flexible integrated circuit (IC) carrier board with copper wire density of 400% higher than that of the state-of-the-art in industry while fulfilling the standards for industrialization.