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Microelectromechanical systems --- Nanotechnology --- Micro-Electrical-Mechanical Systems. --- Nanotechnology. --- Microelectromechanical systems. --- new physics of micro- and nano-systems --- micro- and nano-mechanics modelling --- materials for micro- and nano-systems --- micro- and nano-sensors --- micro- and nano-actuators --- micro- and nano-fluidics --- MEMS (Microelectromechanical systems) --- Micro-electro-mechanical systems --- Micro-machinery --- Microelectromechanical devices --- Micromachinery --- Micromachines --- Micromechanical devices --- Micromechanical systems --- Electromechanical devices --- Microtechnology --- Mechatronics --- Nanotechnologies --- Microchemistry --- Nanotubes --- Microchip Analytical Procedures --- Nanostructures --- BioMEMS --- MEMS --- Micro-Electro-Mechanical Systems --- Micro Electrical Mechanical Systems --- Micro Electro Mechanical Systems --- Micro-Electrical-Mechanical System --- Micro-Electro-Mechanical System --- System, Micro-Electrical-Mechanical --- System, Micro-Electro-Mechanical --- Systems, Micro-Electrical-Mechanical --- Systems, Micro-Electro-Mechanical --- Molecular technology --- Nanoscale technology --- High technology --- Civil engineering. Building industry

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The application of CMOS circuits and ASIC VLSI systems to problems in medicine and system biology has led to the emergence of Bio/CMOS Interfaces and Co-Design as an exciting and rapidly growing area of research. The mutual inter-relationships between VLSI-CMOS design and the biophysics of molecules interfacing with silicon and/or onto metals has led to the emergence of the interdisciplinary engineering approach to Bio/CMOS interfaces. This new approach, facilitated by 3D circuit design and nanotechnology, has resulted in new concepts and applications for VLSI systems in the bio-world. This book offers an invaluable reference to the state-of-the-art in Bio/CMOS interfaces. It describes leading-edge research in the field of CMOS design and VLSI development for applications requiring integration of biological molecules onto the chip. It provides multidisciplinary content ranging from biochemistry to CMOS design in order to address Bio/CMOS interface co-design in bio-sensing applications.

Metal oxide semiconductors, Complementary. --- Biochips --- Biomolecules --- Biosensors --- Metal oxide semiconductors, Complementary --- Integrated circuits --- Manufactured Materials --- Electrical Equipment and Supplies --- Electronics --- Molecular Probe Techniques --- Equipment and Supplies --- Technology, Industry, and Agriculture --- Investigative Techniques --- Physics --- Technology, Industry, Agriculture --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Natural Science Disciplines --- Disciplines and Occupations --- Micro-Electrical-Mechanical Systems --- Biosensing Techniques --- Electronics, Medical --- Health & Biological Sciences --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Electrical Engineering --- Biomedical Engineering --- Design --- Very large scale integration --- Biochips. --- Biomolecules. --- Biosensors. --- Chips (Electronics) --- Circuits, Integrated --- Computer chips --- Microchips --- CMOS (Electronics) --- Complementary metal oxide semiconductors --- Semiconductors, Complementary metal oxide --- Biodetectors --- Biological detectors --- Biological sensors --- Biomedical detectors --- Biomedical sensors --- Biological molecules --- Design. --- Engineering. --- Computer-aided engineering. --- Electronic circuits. --- Circuits and Systems. --- Computer-Aided Engineering (CAD, CAE) and Design. --- Electronic circuits --- Microelectronics --- Digital electronics --- Logic circuits --- Transistor-transistor logic circuits --- Detectors --- Medical instruments and apparatus --- Physiological apparatus --- Molecules --- Molecular biology --- Bioreactors --- Molecular computers --- Combinatorial chemistry --- Systems engineering. --- Computer aided design. --- CAD (Computer-aided design) --- Computer-assisted design --- Computer-aided engineering --- Engineering systems --- System engineering --- Engineering --- Industrial engineering --- System analysis --- Design and construction --- CAE --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Data processing --- Medical electronics --- Microelectromechanical systems --- BioMEMS --- MEMS --- Micro-Electro-Mechanical Systems --- Micro Electrical Mechanical Systems --- Micro Electro Mechanical Systems --- Micro-Electrical-Mechanical System --- Micro-Electro-Mechanical System --- System, Micro-Electrical-Mechanical --- System, Micro-Electro-Mechanical --- Systems, Micro-Electrical-Mechanical --- Systems, Micro-Electro-Mechanical --- Medical Electronics --- Biosensing Technics --- Bioprobes --- Electrodes, Enzyme --- Bioprobe --- Biosensing Technic --- Biosensing Technique --- Biosensor --- Electrode, Enzyme --- Enzyme Electrode --- Enzyme Electrodes --- Technic, Biosensing --- Technics, Biosensing --- Technique, Biosensing --- Techniques, Biosensing --- Wearable Electronic Devices --- Microchemistry --- MEMS (Microelectromechanical systems) --- Micro-electro-mechanical systems --- Micro-machinery --- Microelectromechanical devices --- Micromachinery --- Micromachines --- Micromechanical devices --- Micromechanical systems --- Electromechanical devices --- Microtechnology --- Mechatronics --- Biomedical electronics --- Electronics in clinical medicine --- Electronics in medicine --- Biomedical engineering --- Very large scale integration&delete&