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- Title
Ultra-low frequency magnetic energy focusing for highly effective wireless powering of deep-tissue implantable electronic devices.
- Authors
Li, Yuanyuan; Chen, Zhipeng; Liu, Yuxin; Liu, Zijian; Wu, Tong; Zhang, Yuanxi; Peng, Lelun; Huang, Xinshuo; Huang, Shuang; Lin, Xudong; Xie, Xi; Jiang, Lelun
- Abstract
The limited lifespan of batteries is a challenge in the application of implantable electronic devices. Existing wireless power technologies such as ultrasound, near-infrared light and magnetic fields cannot charge devices implanted in deep tissues, resulting in energy attenuation through tissues and thermal generation. Herein, an ultra-low frequency magnetic energy focusing (ULFMEF) methodology was developed for the highly effective wireless powering of deep-tissue implantable devices. A portable transmitter was used to output the low-frequency magnetic field (<50 Hz), which remotely drives the synchronous rotation of a magnetic core integrated within the pellet-like implantable device, generating an internal rotating magnetic field to induce wireless electricity on the coupled coils of the device. The ULFMEF can achieve energy transfer across thick tissues (up to 20 cm) with excellent transferred power (4–15 mW) and non-heat effects in tissues, which is remarkably superior to existing wireless powering technologies. The ULFMEF is demonstrated to wirelessly power implantable micro-LED devices for optogenetic neuromodulation, and wirelessly charged an implantable battery for programmable electrical stimulation on the sciatic nerve. It also bypassed thick and tough protective shells to power the implanted devices. The ULFMEF thus offers a highly advanced methodology for the generation of wireless powered biodevices.
- Subjects
ARTIFICIAL implants; NEURAL stimulation; ELECTRONIC equipment; WIRELESS power transmission; NEAR infrared radiation; MAGNETIC cores; MAGNETIC fields
- Publication
National Science Review, 2024, Vol 11, Issue 5, p1
- ISSN
2095-5138
- Publication type
Article
- DOI
10.1093/nsr/nwae062