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Microsystems for Bioelectronics: the Nanomorphic Cell

Science and Technics


by
Victor V. Zhirnov and Ralph K. Cavin III

Book Details

Format: EPUB

Page count: 204 pages

File size: 2.8 MB

Protection: DRM

Language: English

Microsystems for Bioelectronics is the ultimate guide in the biomedical application industry. It provides a physics-based assessment of the limitless potential of miniaturization technologies. This book goes far beyond the complete design of the final systems. It also discusses the developments of computation and communication subsystems. The future of this technology lies in understanding the scaling limits for the individual systems. This includes all of its components and the fundamental energy source that powers all autonomous microsystems.  Rapid advances in microfabrication technologies are offering new opportunities and capabilities to develop systems for biomedical applications. These applications include the diagnostics community and those that are active in therapy services. Microsystems for Bioelectronics is one of the only books on the market today that goes into the comprehensive treatment of integrated microsystems.

Microsystems for Bioelectronics is the ultimate guide in the biomedical application industry. It provides a physics-based assessment of the limitless potential of miniaturization technologies. This book goes far beyond the complete design of the final systems. It also discusses the developments of computation and communication subsystems. The future of this technology lies in understanding the scaling limits for the individual systems. This includes all of its components… (more)

Microsystems for Bioelectronics is the ultimate guide in the biomedical application industry. It provides a physics-based assessment of the limitless potential of miniaturization technologies. This book goes far beyond the complete design of the final systems. It also discusses the developments of computation and communication subsystems. The future of this technology lies in understanding the scaling limits for the individual systems. This includes all of its components and the fundamental energy source that powers all autonomous microsystems.  Rapid advances in microfabrication technologies are offering new opportunities and capabilities to develop systems for biomedical applications. These applications include the diagnostics community and those that are active in therapy services. Microsystems for Bioelectronics is one of the only books on the market today that goes into the comprehensive treatment of integrated microsystems.

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