Introduction; Surface Chemistry of Neurons on Substrates; Detection using Microelectronic Devices; Microelectrode Arrays and Light Addressable Potentiometric; Vibrational Fields -- Acoustic Physics, Scanning Kelvin Nanoprobe; The Interface Between Brain and Artificial Implants; Future Perspectives
Summary
Biosensor technology has rapidly expanded into a wide variety of applications in the last few years. Such fields include clinical diagnostics, environmental chemistry, drug discovery and pathogen detection, to name but a few. The structure of these sensors is based on the intimate combination of a biological entity with a transducer capable of generating an electrical signal to provide information on the biological system being studied. Until now there has been a limited treatment of the study of whole cells (as a biological component) due to the difficulty in connecting transducers to cell po
Notes
Includes index
Bibliography
Includes bibliographical references and index
Notes
Online resource; title from PDF title page (ebrary, viewed October 19, 2013)
