Next-Generation Wearable Biosensors Developed with Flexible Bio-Chips

• Main Authors: Dahyun Nam, Jae Min Cha, Kiwon Park
• Format: Article
• Language: English
• Published: MDPI AG 2021-01-01
• Series: Micromachines
• Subjects: biosensor; wearable biosensor; electrophysiology sensor; motion artifact noise; flexible electrode
• Online Access: https://www.mdpi.com/2072-666X/12/1/64

The development of biosensors that measure various biosignals from our body is an indispensable research field for health monitoring. In recent years, as the demand to monitor the health conditions of individuals in real time have increased, wearable-type biosensors have received more attention as an alternative to laboratory equipment. These biosensors have been embedded into smart watches, clothes, and accessories to collect various biosignals in real time. Although wearable biosensors attached to the human body can conveniently collect biosignals, there are reliability issues due to noise generated in data collection. In order for wearable biosensors to be more widely used, the reliability of collected data should be improved. Research on flexible bio-chips in the field of material science and engineering might help develop new types of biosensors that resolve the issues of conventional wearable biosensors. Flexible bio-chips with higher precision can be used to collect various human data in academic research and in our daily lives. In this review, we present various types of conventional biosensors that have been used and discuss associated issues such as noise and inaccuracy. We then introduce recent studies on flexible bio-chips as a solution to these issues.