生物医学传感与检测
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作者王平,等
出版社浙江大学出版社
ISBN9787308100694
出版时间2012-10
版次1
装帧平装
开本16开
纸张胶版纸
页数292页
字数99999千字
定价48元
上书时间2024-04-09
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基本信息
书名:生物医学传感与检测
定价:48.00元
作者:王平,等
出版社:浙江大学出版社
出版日期:2012-10-01
ISBN:9787308100694
字数:680000
页码:292
版次:1
装帧:平装
开本:16开
商品重量:
编辑推荐
《生物医学传感与检测》在国际上首次系统地介绍了生物医学传感与检测技术这一交叉领域的基础和应用技术,结合我们多年的科研工作,完整地介绍了现代生物医学传感和检测技术的目前国际发展现状、生物医学传感与检测技术的基本原理和方法,包括物理量传感与检测技术、化学量传感与检测技术、生物量传感与检测技术及其在生物医学领域的典型应用。
内容提要
《生物医学传感与检测》由王平、刘清君、吴春生、Chung-Chiun Liu编著。《生物医学传感与检测》内容如下:Biomedical Sensors and Measurement is an interdisciplinaryook combining electronics withiology and medicine. It gives an overview of the concept and principle ofiomedical sensors and measurement. First, theasic theory and technology are explained, followedy details of the physical sensors, chemical sensors,iosensors and their typical applications iniomedicine. Furthermore, the interface technology of the sensors and the typical measurement systems is presented. The large amount of vivid and specific figures and formulas will help to deepen the understanding of the fundamental and new applications aboutiomedical sensors and measurement technology.Theook is intended tbriomedical engineers, medical physicists and other researchers and professionals iniomedicine-related speties, espely interdisciplinary studies.
目录
Chapter 1 Introduction1.1 Definition and Classification of Biomedical Sensors1.1.1 Basic Concept of Sensors1.1.2 Classification of Biomedical Sensors1.2 Biomedical Measurement Technology1.2.1 Bioelectrical Signal Detection1.2.2 Biomagnetic Signal Detection1.2.3 Other Physiological and Biochemical Parameter Detection1.3 Characteristics of Biomedical Sensors and Measurement1.3.1 Features &Biomedical Sensors and Measurement1.3.2 Spe Requirements of Biomedical Sensors and Measurement.1.4 Development of Biomedical Sensors and Measurement1.4.1 Invasive and Non-Invasive Detection1.4.2 Multi-Parameter Detection1.4.3 In vitro and in vivo Detection1.4.4 Intelligent Artifi Viscera1.4.5 Micro-Nano Systems1.4.6 Biochips and Microfluidics1.4.7 Biomimetic SensorsReferencesChapter 2 Basics of Sensors and Measurement2.1 Introduction2.2 Sensor Characteristics and Terminology2.2.1 Static Characteristics2.2.2 Dynamic Characteristics2.3 Sensor Measurement Technology2.3.1 Measurement Methods2.3.2 Sensor Measurement System2.3.3 Signal Modulation and Demodulation2.3.4 Improvement of Sensor Measurement System2.4 Biocompatibility Design of Sensors2.4.1 Concept and Principle of Biocompatibility2.4.2 Biocompatibility for Implantable Biomedical Sensors2.4.3 Biocompatibility for in vitro Biomedical Sensors2.5 Microfabrication of Biomedical Sensors2.5.1 Lithography2.5.2 Film Formation2.5.3 Etching2.5.4 Design of the Biomedical SensorsReferencesChapter 3 Physical Sensors and Measurement3.1 Introduction3.2 Resistance Sensors and Measurement3.2.1 Resistance Strain Sensors3.2.2 Piezoresistive Sensors3.3 Inductive Sensors and Measurement3.3.1 Basics3.3.2 Applications in Biomedicine3.4 Capacitive Sensors and M~asurement3.4.1 The Basic Theory and Configuration of Capacitive Sensors3.4.2 Measurement Circuits3.4.3 Biomedical Applications3.5 Piezoelectric Sensors and Measurement3.5.1 Piezoelectric Effect3.5.2 Piezoelectric Materials3.5.3 Measurement Circuits3.5.4 Biomedical Applications3.6 Magnetoelectric Sensors and Measurement3.6.1 Magnetoelectric Induction Sensors3.6.2 Hall Magnetic Sensors3.7 Photoelectric Sensors3.7.1 Photoelectric Element3.7.2 Fiber Optic Sensors3.7.3 Applications of Photoelectric Sensors3.8 Thermoelectric Sensors and Measurement3.8.1 Thermosensitive Elements3.8.2 Thermocouple Sensors3.8.3 Integrated Temperature Sensors3.8.4 Biomedical ApplicationsReferencesChapter 4 Chemical Sensors and Measurement4.1 Introduction4.1.1 History4.1.2 Definition and Principle4.1.3 Classification and Characteristics4.2 Electrochemical Fundamental4:2.1 Measurement System4.2.2 Basic Conception4.2.3 Classification of Electrodes4.3 Ion Sensors4.3.1 Ion-Selective Electrodes4.3.2 Ion-Selective Field-Effect Transistors4.3.3 Light Addressable Potentiometric Sensors4.3.4 Microelectrode Array4.4 Gas Sensors4.4.1 Electrochemical Gas Sensors4.4.2 Semiconductor Gas Sensors4.4.3 Solid Electrolyte Gas Sensors4.4.4 Surface Acoustic Wave Sensors4.5 Humidity Sensors4.5.1 Capacitive Humidity Sensors4.5.2 Resistive Humidity Sensors4.5.3 Thermal Conductivity Humidity Sensors4.5.4 Application4.6 Intelligent Chemical Sensor Arrays4.6.1 e-Nose4.6.2 e-Tongue4.7 Micro Total Analysis System4.7.1 Design and Fabrication4.7.2 Applications4.8 Sensor Networks4.8.1 History of Sensor Networks4.8.2 Essential Factors of Sensor Networks4.8.3 Buses of Sensor Networks4.8.4 Wireless Sensor NetworkReferencesChapter 5 Biosensors and Measurement5.1 Introduction5.1.1 History and Concept of Biosensors5.1.2 Components of Biosensor5.1.3 Properties of Biosensors5.1.4 Common Bioreceptor Components5.2 Catalytic Biosensors5.2.1 Enzyme Biosensors :5.2.2 Microorganism Biosensors5.3 Affinity Biosensors5.3.1 Antibody and Antigen Biosensors5.3.2 Nucleic Acid Biosensors5.3.3 Receptor and Ion Channel Biosensors5.4 Cell and Tissue Biosensors5.4.1 Cellular Metabolism Biosensors5.4.2 Cellular Impedance Biosensors5.4.3 Extracellular Potential Biosensors5.5 Biochips5.5.1 Chips of Microarray5.5.2 Gene and Protein Chips5.5.3 Tissue and Cell Chips5.5.4 Lab-on-a-Chip5.6 Nano-Biosensors5.6.1 Nanomaterials for Biosensors5.6.2 Nanoparticles and Nanopores Biosensors5.6.3 Nanotubes and Nanowires BiosensorsReferencesIndex
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