| Abstract Scope |
Recent advancements in soft electronics have garnered significant attention, primarily due to their potential applications in personalized bio-integrated healthcare devices. The development of such bioelectronic devices involves research into the synthesis of nanomaterials, the development of their composites with elastic polymers, and the modification and optimization of processing techniques and device designs. This presentation explores unconventional electronic materials and device strategies, particularly highlighting their applications in treating cardiovascular diseases. Additionally, integrating wireless technologies and artificial intelligence with unconventional soft bioelectronics presents further opportunities in the treatment of cardiovascular diseases, in both wearable and implantable platforms. These efforts in developing various unconventional materials and bioelectronic devices are expected to contribute significantly to addressing numerous unresolved issues in clinical medicine. |