<正>With the upsurge of stretchable electronics, organic optoelectronic devices are enjoying renewed prominence from both academia and industry due to their high flexibility, biocompatibility,lightweight and low-cost mass production [1–4]. Current appeal for wearable and implantable smart systems has facilitated the rapid advancement of intrinsically stretchable organic optoelectronic devices. Such devices are capable of seamless integration,high-resolution sensing and excellent mechanical stability, thereby exhibiting outstanding prospects for precise detection in remote,real-time and mobile situations [5]. Furthermore, intrinsically stretchable organic optoelectronic devices provide enticing opportunities towards achieving human-oriented applications including medical monitoring and diagnosis, intelligent biomimetic robots,prosthetic auxiliary equipment and human-electronic interfaces[1–3,5,6].

• 单位
  中国科学院大学