Implants with sensing capabilities
Because of the aging human population and increased numbers of surgical procedures
being performed, there is a growing number of biomedical devices being implanted each …
being performed, there is a growing number of biomedical devices being implanted each …
Revolutionizing implantable technology: biocompatible Supercapacitors as the future of power sources
NR Chodankar, SV Karekar… - Advanced Functional …, 2024 - Wiley Online Library
Almost all implantable electronic medical devices (IEMDs) are powered by bulky Li‐ion
batteries (LIBs), limiting their miniaturization and lifespan advancements. In addition, LIBs …
batteries (LIBs), limiting their miniaturization and lifespan advancements. In addition, LIBs …
A tissue‐like soft all‐hydrogel battery
To develop wearable and implantable bioelectronics accommodating the dynamic and
uneven biological tissues and reducing undesired immune responses, it is critical to adopt …
uneven biological tissues and reducing undesired immune responses, it is critical to adopt …
Biocompatible batteries—materials and chemistry, fabrication, applications, and future prospects
Energy storage systems for powering electronic medical implants and sensors are
essentially based on conventional electrode materials and electrolytes. Because of their …
essentially based on conventional electrode materials and electrolytes. Because of their …
Injectable fiber batteries for all-region power supply in vivo
Implantable batteries are critical for operation of most implanted electronic devices that are
revolutionizing the healthcare field nowadays. However, the employed electrolytes for …
revolutionizing the healthcare field nowadays. However, the employed electrolytes for …
Tissue‐Matchable and Implantable Batteries Toward Biomedical Applications
Implantable electronic devices can realize real‐time and reliable health monitoring,
diagnosis, and treatment of human body, which are expected to overcome important …
diagnosis, and treatment of human body, which are expected to overcome important …
Design and characterization of a passive, disposable wireless AC-electroosmotic lab-on-a-film for particle and fluid manipulation
A wirelessly powered and controlled biased-AC electroosmotic (biased-ACEO) lab-on-a-film
(LOF) is presented here for particle and fluid manipulation. Amplitude modulation (AM) and …
(LOF) is presented here for particle and fluid manipulation. Amplitude modulation (AM) and …
Commercial off-the-shelf components (COTS) in realizing miniature implantable wireless medical devices: A review
Over the past decade, there has been exponential growth in the per capita rate of medical
patients around the world, and this is significantly straining the resources of healthcare …
patients around the world, and this is significantly straining the resources of healthcare …
A VHF wide-input range CMOS passive rectifier with active bias tuning
Tiny implantable medical devices in millimeter size demand advanced wireless power
solutions that operate at hundreds of megahertz and mainly use passive rectifiers for ac-dc …
solutions that operate at hundreds of megahertz and mainly use passive rectifiers for ac-dc …
Development of an implantable wireless and batteryless bladder pressure monitor system for lower urinary tract dysfunction
Y Zhong, B Qian, Y Zhu, Z Ren, J Deng… - IEEE Journal of …, 2019 - ieeexplore.ieee.org
Background: Closed-loop neuromodulation based on bladder pressure is an effective
therapy for lower urinary tract dysfunction. The catheter-based cystometry normally used for …
therapy for lower urinary tract dysfunction. The catheter-based cystometry normally used for …