About this Research Topic
The exploration of flexible self-powered materials and devices represents a pioneering frontier in the field of electronics, offering transformative potential for a variety of applications, including wearable technology, flexible displays and next-generation wireless communication systems, etc. The research includes the advancements, challenges and future prospects of innovative materials and devices, emphasizing their importance in current and future technological landscapes.
The aim of researching flexible self-powered materials and devices is to revolutionize the electronics industry by creating materials that can bend, stretch and flex without external power supply. This research aims to develop innovative devices like flexible self-powered displays and advanced systems that are durable and lightweight. With wearable technology, some devices can conform to different shapes and surfaces. By addressing current constraints in optoelectronic design and functionality, this field aims to introduce a new era of electronics that seamlessly integrate into daily life, improving the user experience and enabling new technological applications requiring ultra-low energy consumption.
For researchers and scientists engaged in the fields of flexible self-powered materials and devices, this special topic provides a platform to share their new developments and insights. The advancements of self-powered technology, flexible displays and seamless integration into everyday objects hold the promise of revolutionizing sectors such as healthcare, consumer electronics and telecommunications.
The topics covered under this research scope include, but are not limited to:
1) Material science for self-powered electronics
2) Wearable self-powered devices
3) Stretchable batteries and energy storage
4) Energy harvesting with flexible materials
5) Self-powered technology with ultra-low energy consumption
6) Self-powered semiconductors in flexible devices
7) Nanostructured materials for self-powered electronics
8) Reliability and durability of self-powered devices
The aim of researching flexible self-powered materials and devices is to revolutionize the electronics industry by creating materials that can bend, stretch and flex without external power supply. This research aims to develop innovative devices like flexible self-powered displays and advanced systems that are durable and lightweight. With wearable technology, some devices can conform to different shapes and surfaces. By addressing current constraints in optoelectronic design and functionality, this field aims to introduce a new era of electronics that seamlessly integrate into daily life, improving the user experience and enabling new technological applications requiring ultra-low energy consumption.
For researchers and scientists engaged in the fields of flexible self-powered materials and devices, this special topic provides a platform to share their new developments and insights. The advancements of self-powered technology, flexible displays and seamless integration into everyday objects hold the promise of revolutionizing sectors such as healthcare, consumer electronics and telecommunications.
The topics covered under this research scope include, but are not limited to:
1) Material science for self-powered electronics
2) Wearable self-powered devices
3) Stretchable batteries and energy storage
4) Energy harvesting with flexible materials
5) Self-powered technology with ultra-low energy consumption
6) Self-powered semiconductors in flexible devices
7) Nanostructured materials for self-powered electronics
8) Reliability and durability of self-powered devices
Keywords: flexible self-powered device, self-powered semiconductor, self-driven device, self-powered optoelectronic material, wearable self-driven sensor
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
