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With development of implants and in vivo detection devices comes the complication of the interaction between the materials used in the devices and biological fluids. This book examines these interactions causing fouling in biosensors and the serious issue of thrombus formation. The chemistry of surface-protein and surface-cell interactions is considered, the coatings and strategies re the avoidance of fouling are compared and the expert contributors provide a comprehensive look at the physical chemistry of the implant surface and the fouling problem. Finishing with a discussion of the future for surface modified biosensors in point-of-care devices and microfluidic technologies, this book provides an important addition to the literature suitable for professional researchers in academia and industry and postgraduate students.
This book will be invaluable to university neuroscience and analytical chemistry departments and students, academics and physicians will benefit from its accessible style and format.
This book concerns the design, operation and application of devices capable of generating acoustic waves in the ultrasonic frequency range. It emphasizes the study of chemical and/or biochemical systems imposed on the surface of such devices, whether operated in the gas- or liquid-phase, ie on acoustic wave chemical and biological sensors.
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