Complementary metal-oxide-semiconductor (CMOS) technology is a form of integrated circuit (IC) technology that is commonly used in the electronics industry. Due to its ability to integrate both digital and analog circuitry on a single chip, CMOS technology has recently gained popularity in the development of bioelectronics devices. CMOS bioelectronics describes the use of CMOS technology to develop devices that can communicate with biological systems.
Employing many components and functions on a single chip to create very portable and compact devices is one of the benefits of adopting CMOS technology for bioelectronics. The great sensitivity and selectivity of CMOS bioelectronics devices enable the precise and accurate detection and measurement of biological signals.
Biosensors, microelectrode arrays, and implantable devices for neural stimulation and recording are examples of CMOS bioelectronics devices. CMOS bioelectronics has also been used in the creation of lab-on-chip systems, which combine multiple functions on a single chip, such as sample preparation, detection, and analysis.
Overall, CMOS bioelectronics has the potential to improve the field of bioelectronics by facilitating the construction of highly advanced and integrated devices for a wide range of applications such as medical diagnostics, drug discovery, and brain research.
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