[High-tech LED] Recently, researchers at the University of California, Los Angeles, Henry Samueli School of Engineering and Applied Science, used a single-walled carbon nanotube polymer composite electrode to develop a stretchable polymer LED for the first time.
According to reports, carbon nanotube materials have low surface resistance, high transparency, high compliance and low surface roughness, which makes new products have a wider range of potential applications, such as wearable electronics, due to their rubber-like pull. Extensibility, and a good fit to the skin, can be used as "smart skin" or portable minimally invasive biomedical equipment.
According to reports, carbon nanotube materials have low surface resistance, high transparency, high compliance and low surface roughness, which makes new products have a wider range of potential applications, such as wearable electronics, due to their rubber-like pull. Extensibility, and a good fit to the skin, can be used as "smart skin" or portable minimally invasive biomedical equipment.
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