Verfügbarkeit: Cell-based biosensors :

Cell-based biosensors :: principles and applications /

In the 21st century, we are witnessing the integration of two dynamic disciplines - electronics and biology. As a result bioelectronics and biosensors have become of particular interest to engineers and researchers working in related biomedical areas. Written by recognized experts the field, this le...

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Weitere Verfasser:	Wang, Ping, 1959-, Liu, Qingjun
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston : Artech House, ©2010.
Schriftenreihe:	Artech House engineering in medicine & biology series.
Schlagworte:	Biosensors. Transducers. Cellular signal transduction. Biosensing Techniques Transducers Signal Transduction Biocapteurs. Transducteurs. Transduction du signal cellulaire. TECHNOLOGY & ENGINEERING > Engineering (General) TECHNOLOGY & ENGINEERING > Reference. Biosensors Cellular signal transduction
Online-Zugang:	Volltext
Zusammenfassung:	In the 21st century, we are witnessing the integration of two dynamic disciplines - electronics and biology. As a result bioelectronics and biosensors have become of particular interest to engineers and researchers working in related biomedical areas. Written by recognized experts the field, this leading-edge resource is the first book to systematically introduce the concept, technology, and development of cell-based biosensors. Readers find details on the latest cell-based biosensor models and novel micro-structure biosensor techniques. Taking an interdisciplinary approach, this unique volume presents the latest innovative applications of cell-based biosensors in a variety of biomedical fields. The book also explores future trends of cell-based biosensors, including integrated chips, nanotechnology and microfluidics. Over 140 illustrations help clarify key topics throughout the book.
Beschreibung:	1 online resource (xvii, 271 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781596934405 1596934409

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520	3		\|a In the 21st century, we are witnessing the integration of two dynamic disciplines - electronics and biology. As a result bioelectronics and biosensors have become of particular interest to engineers and researchers working in related biomedical areas. Written by recognized experts the field, this leading-edge resource is the first book to systematically introduce the concept, technology, and development of cell-based biosensors. Readers find details on the latest cell-based biosensor models and novel micro-structure biosensor techniques. Taking an interdisciplinary approach, this unique volume presents the latest innovative applications of cell-based biosensors in a variety of biomedical fields. The book also explores future trends of cell-based biosensors, including integrated chips, nanotechnology and microfluidics. Over 140 illustrations help clarify key topics throughout the book. \|c Publisher abstract.
505	0		\|a Cell-Based Biosensors Principles and Applications; Contents; Foreword; Preface; Acknowledgments; Chapter 1 Introduction; 1.1 Definition of Cell-Based Biosensors; 1.2 Characteristics of Cell-Based Biosensors; 1.3 Types of Cell-Based Biosensors; 1.4 Summary; References; Chapter 2 Cell Culture on Chips; 2.1 Introduction; 2.2 Cell Immobilization Factors; 2.2.1 Physical Factors; 2.2.2 Chemical Factors; 2.2.3 Biological Factors; 2.3 Basic Surface Modification Rules; 2.3.1 Hydrophilicity Improving; 2.3.2 Roughness Changing; 2.3.3 Chemical Coating; 2.4 Typical Methods
505	8		\|a 2.4.1 Special Physical Structure 2.4.2 Microcontact Printing; 2.4.3 Fast Ink-Jet Printing; 2.4.4 Perforated Microelectrode; 2.4.5 Self-Assembled Monolayer; 2.4.6 Microfluidic Technology; 2.5 Summary; References; Chapter 3 Mechanisms of Cell-Based Biosensors; 3.1 Introduction; 3.2 Metabolic Measurements; 3.2.1 Cell Metabolism; 3.2.2 Extracellular pH Monitoring; 3.2.3 Other Extracellular Metabolite Sensing; 3.2.4 Secondary Transducers; 3.3 Action Potential Measurements; 3.3.1 Action Potential; 3.3.2 The Solid-Electrolyte Interface; 3.3.3 Cell-Electrode Interface Model
505	8		\|a 3.3.4 Cell-Silicon Interface Model 3.3.5 Secondary Transducers; 3.4 Impedance Measurements; 3.4.1 Membrane Impedance; 3.4.2 Impedance Model of Single Cells; 3.4.3 Impedance Model of Populations of Cells; 3.4.4 Secondary Transducers; 3.5 Noise Sources; 3.5.1 Electrode Noise; 3.5.2 Electromagnetic Interference; 3.5.3 Biological Noise; 3.6 Summary; References; Chapter 4 Microelectrode Array (MEA) as Cell-Based Biosensors; 4.1 Introduction; 4.2 Principle; 4.3 Fabrication and Design of MEA System; 4.3.1 Fabrication; 4.3.2 Different MEA Chips; 4.3.3 Measurement Setup
505	8		\|a 4.4 Theoretical Analysis of Signal Process in MEA Systems 4.4.1 Equivalent Circuit Model of Signal Process; 4.4.2 Impedance Properties Analysis of MEA; 4.4.3 Analysis of Extracellular Signal; 4.5 Application of MEA; 4.5.1 Dissociated Neural Network on MEA; 4.5.2 Slice on MEA; 4.5.3 Retina on MEA; 4.5.4 Pharmacological Application; 4.6 Development Trends; 4.6.1 Lab on a Chip; 4.6.2 Portable MEA System; 4.6.3 Other Developmental Trends; 4.7 Summary; References; Chapter 5 Field Effect Transistor (FET) as Cell-BasedBiosensors; 5.1 Introduction; 5.2 Principle; 5.3 Device and System
505	8		\|a 5.3.1 Fabrication of FET-Based Biosensor 5.3.2 FET Sensor System; 5.4 Theoretical Analysis; 5.4.1 Area-Contact Model; 5.4.2 Point-Contact Model; 5.5 Application; 5.5.1 Electrophysiological Recording of Neuronal Activity; 5.5.2 Two-Way Communication Between Silicon Chip and Neuron; 5.5.3 Neuronal Network Study; 5.5.4 Cell Microenvironment Monitoring; 5.6 Development Trends; 5.7 Summary; References; Chapter 6 Light Addressable Potentiometric Sensor (LAPS) as Cell-Based Biosensors; 6.1 Introduction; 6.2 Principle; 6.2.1 Fundamental; 6.2.2 Numerical Analysis; 6.3 Device and System; 6.3.1 Device
650		0	\|a Biosensors. \|0 http://id.loc.gov/authorities/subjects/sh85014260
650		0	\|a Transducers. \|0 http://id.loc.gov/authorities/subjects/sh85136892
650		0	\|a Cellular signal transduction. \|0 http://id.loc.gov/authorities/subjects/sh89002397
650	1	2	\|a Biosensing Techniques
650		2	\|a Transducers \|0 https://id.nlm.nih.gov/mesh/D014159
650	2	2	\|a Signal Transduction
650		6	\|a Biocapteurs.
650		6	\|a Transducteurs.
650		6	\|a Transduction du signal cellulaire.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Engineering (General) \|2 bisacsh
650		7	\|a TECHNOLOGY & ENGINEERING \|x Reference. \|2 bisacsh
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650		7	\|a Cellular signal transduction \|2 fast
650		7	\|a Transducers \|2 fast
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contents	Cell-Based Biosensors Principles and Applications; Contents; Foreword; Preface; Acknowledgments; Chapter 1 Introduction; 1.1 Definition of Cell-Based Biosensors; 1.2 Characteristics of Cell-Based Biosensors; 1.3 Types of Cell-Based Biosensors; 1.4 Summary; References; Chapter 2 Cell Culture on Chips; 2.1 Introduction; 2.2 Cell Immobilization Factors; 2.2.1 Physical Factors; 2.2.2 Chemical Factors; 2.2.3 Biological Factors; 2.3 Basic Surface Modification Rules; 2.3.1 Hydrophilicity Improving; 2.3.2 Roughness Changing; 2.3.3 Chemical Coating; 2.4 Typical Methods 2.4.1 Special Physical Structure 2.4.2 Microcontact Printing; 2.4.3 Fast Ink-Jet Printing; 2.4.4 Perforated Microelectrode; 2.4.5 Self-Assembled Monolayer; 2.4.6 Microfluidic Technology; 2.5 Summary; References; Chapter 3 Mechanisms of Cell-Based Biosensors; 3.1 Introduction; 3.2 Metabolic Measurements; 3.2.1 Cell Metabolism; 3.2.2 Extracellular pH Monitoring; 3.2.3 Other Extracellular Metabolite Sensing; 3.2.4 Secondary Transducers; 3.3 Action Potential Measurements; 3.3.1 Action Potential; 3.3.2 The Solid-Electrolyte Interface; 3.3.3 Cell-Electrode Interface Model 3.3.4 Cell-Silicon Interface Model 3.3.5 Secondary Transducers; 3.4 Impedance Measurements; 3.4.1 Membrane Impedance; 3.4.2 Impedance Model of Single Cells; 3.4.3 Impedance Model of Populations of Cells; 3.4.4 Secondary Transducers; 3.5 Noise Sources; 3.5.1 Electrode Noise; 3.5.2 Electromagnetic Interference; 3.5.3 Biological Noise; 3.6 Summary; References; Chapter 4 Microelectrode Array (MEA) as Cell-Based Biosensors; 4.1 Introduction; 4.2 Principle; 4.3 Fabrication and Design of MEA System; 4.3.1 Fabrication; 4.3.2 Different MEA Chips; 4.3.3 Measurement Setup 4.4 Theoretical Analysis of Signal Process in MEA Systems 4.4.1 Equivalent Circuit Model of Signal Process; 4.4.2 Impedance Properties Analysis of MEA; 4.4.3 Analysis of Extracellular Signal; 4.5 Application of MEA; 4.5.1 Dissociated Neural Network on MEA; 4.5.2 Slice on MEA; 4.5.3 Retina on MEA; 4.5.4 Pharmacological Application; 4.6 Development Trends; 4.6.1 Lab on a Chip; 4.6.2 Portable MEA System; 4.6.3 Other Developmental Trends; 4.7 Summary; References; Chapter 5 Field Effect Transistor (FET) as Cell-BasedBiosensors; 5.1 Introduction; 5.2 Principle; 5.3 Device and System 5.3.1 Fabrication of FET-Based Biosensor 5.3.2 FET Sensor System; 5.4 Theoretical Analysis; 5.4.1 Area-Contact Model; 5.4.2 Point-Contact Model; 5.5 Application; 5.5.1 Electrophysiological Recording of Neuronal Activity; 5.5.2 Two-Way Communication Between Silicon Chip and Neuron; 5.5.3 Neuronal Network Study; 5.5.4 Cell Microenvironment Monitoring; 5.6 Development Trends; 5.7 Summary; References; Chapter 6 Light Addressable Potentiometric Sensor (LAPS) as Cell-Based Biosensors; 6.1 Introduction; 6.2 Principle; 6.2.1 Fundamental; 6.2.2 Numerical Analysis; 6.3 Device and System; 6.3.1 Device
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2.4.6 Microfluidic Technology; 2.5 Summary; References; Chapter 3 Mechanisms of Cell-Based Biosensors; 3.1 Introduction; 3.2 Metabolic Measurements; 3.2.1 Cell Metabolism; 3.2.2 Extracellular pH Monitoring; 3.2.3 Other Extracellular Metabolite Sensing; 3.2.4 Secondary Transducers; 3.3 Action Potential Measurements; 3.3.1 Action Potential; 3.3.2 The Solid-Electrolyte Interface; 3.3.3 Cell-Electrode Interface Model</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.3.4 Cell-Silicon Interface Model 3.3.5 Secondary Transducers; 3.4 Impedance Measurements; 3.4.1 Membrane Impedance; 3.4.2 Impedance Model of Single Cells; 3.4.3 Impedance Model of Populations of Cells; 3.4.4 Secondary Transducers; 3.5 Noise Sources; 3.5.1 Electrode Noise; 3.5.2 Electromagnetic Interference; 3.5.3 Biological Noise; 3.6 Summary; References; Chapter 4 Microelectrode Array (MEA) as Cell-Based Biosensors; 4.1 Introduction; 4.2 Principle; 4.3 Fabrication and Design of MEA System; 4.3.1 Fabrication; 4.3.2 Different MEA Chips; 4.3.3 Measurement Setup</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">4.4 Theoretical Analysis of Signal Process in MEA Systems 4.4.1 Equivalent Circuit Model of Signal Process; 4.4.2 Impedance Properties Analysis of MEA; 4.4.3 Analysis of Extracellular Signal; 4.5 Application of MEA; 4.5.1 Dissociated Neural Network on MEA; 4.5.2 Slice on MEA; 4.5.3 Retina on MEA; 4.5.4 Pharmacological Application; 4.6 Development Trends; 4.6.1 Lab on a Chip; 4.6.2 Portable MEA System; 4.6.3 Other Developmental Trends; 4.7 Summary; References; Chapter 5 Field Effect Transistor (FET) as Cell-BasedBiosensors; 5.1 Introduction; 5.2 Principle; 5.3 Device and System</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">5.3.1 Fabrication of FET-Based Biosensor 5.3.2 FET Sensor System; 5.4 Theoretical Analysis; 5.4.1 Area-Contact Model; 5.4.2 Point-Contact Model; 5.5 Application; 5.5.1 Electrophysiological Recording of Neuronal Activity; 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illustrated	Illustrated
indexdate	2024-11-27T13:16:57Z
institution	BVB
isbn	9781596934405 1596934409
language	English
oclc_num	542050650
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owner	MAIN DE-863 DE-BY-FWS
owner_facet	MAIN DE-863 DE-BY-FWS
physical	1 online resource (xvii, 271 pages) : illustrations
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publishDate	2010
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publisher	Artech House,
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series	Artech House engineering in medicine & biology series.
series2	Artech House series engineering in medicine & biology
spelling	Cell-based biosensors : principles and applications / Ping Wang, Qingjun Liu, editors. Boston : Artech House, ©2010. 1 online resource (xvii, 271 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file Artech House series engineering in medicine & biology Includes bibliographical references and index. Print version record. In the 21st century, we are witnessing the integration of two dynamic disciplines - electronics and biology. As a result bioelectronics and biosensors have become of particular interest to engineers and researchers working in related biomedical areas. Written by recognized experts the field, this leading-edge resource is the first book to systematically introduce the concept, technology, and development of cell-based biosensors. Readers find details on the latest cell-based biosensor models and novel micro-structure biosensor techniques. Taking an interdisciplinary approach, this unique volume presents the latest innovative applications of cell-based biosensors in a variety of biomedical fields. The book also explores future trends of cell-based biosensors, including integrated chips, nanotechnology and microfluidics. Over 140 illustrations help clarify key topics throughout the book. Publisher abstract. Cell-Based Biosensors Principles and Applications; Contents; Foreword; Preface; Acknowledgments; Chapter 1 Introduction; 1.1 Definition of Cell-Based Biosensors; 1.2 Characteristics of Cell-Based Biosensors; 1.3 Types of Cell-Based Biosensors; 1.4 Summary; References; Chapter 2 Cell Culture on Chips; 2.1 Introduction; 2.2 Cell Immobilization Factors; 2.2.1 Physical Factors; 2.2.2 Chemical Factors; 2.2.3 Biological Factors; 2.3 Basic Surface Modification Rules; 2.3.1 Hydrophilicity Improving; 2.3.2 Roughness Changing; 2.3.3 Chemical Coating; 2.4 Typical Methods 2.4.1 Special Physical Structure 2.4.2 Microcontact Printing; 2.4.3 Fast Ink-Jet Printing; 2.4.4 Perforated Microelectrode; 2.4.5 Self-Assembled Monolayer; 2.4.6 Microfluidic Technology; 2.5 Summary; References; Chapter 3 Mechanisms of Cell-Based Biosensors; 3.1 Introduction; 3.2 Metabolic Measurements; 3.2.1 Cell Metabolism; 3.2.2 Extracellular pH Monitoring; 3.2.3 Other Extracellular Metabolite Sensing; 3.2.4 Secondary Transducers; 3.3 Action Potential Measurements; 3.3.1 Action Potential; 3.3.2 The Solid-Electrolyte Interface; 3.3.3 Cell-Electrode Interface Model 3.3.4 Cell-Silicon Interface Model 3.3.5 Secondary Transducers; 3.4 Impedance Measurements; 3.4.1 Membrane Impedance; 3.4.2 Impedance Model of Single Cells; 3.4.3 Impedance Model of Populations of Cells; 3.4.4 Secondary Transducers; 3.5 Noise Sources; 3.5.1 Electrode Noise; 3.5.2 Electromagnetic Interference; 3.5.3 Biological Noise; 3.6 Summary; References; Chapter 4 Microelectrode Array (MEA) as Cell-Based Biosensors; 4.1 Introduction; 4.2 Principle; 4.3 Fabrication and Design of MEA System; 4.3.1 Fabrication; 4.3.2 Different MEA Chips; 4.3.3 Measurement Setup 4.4 Theoretical Analysis of Signal Process in MEA Systems 4.4.1 Equivalent Circuit Model of Signal Process; 4.4.2 Impedance Properties Analysis of MEA; 4.4.3 Analysis of Extracellular Signal; 4.5 Application of MEA; 4.5.1 Dissociated Neural Network on MEA; 4.5.2 Slice on MEA; 4.5.3 Retina on MEA; 4.5.4 Pharmacological Application; 4.6 Development Trends; 4.6.1 Lab on a Chip; 4.6.2 Portable MEA System; 4.6.3 Other Developmental Trends; 4.7 Summary; References; Chapter 5 Field Effect Transistor (FET) as Cell-BasedBiosensors; 5.1 Introduction; 5.2 Principle; 5.3 Device and System 5.3.1 Fabrication of FET-Based Biosensor 5.3.2 FET Sensor System; 5.4 Theoretical Analysis; 5.4.1 Area-Contact Model; 5.4.2 Point-Contact Model; 5.5 Application; 5.5.1 Electrophysiological Recording of Neuronal Activity; 5.5.2 Two-Way Communication Between Silicon Chip and Neuron; 5.5.3 Neuronal Network Study; 5.5.4 Cell Microenvironment Monitoring; 5.6 Development Trends; 5.7 Summary; References; Chapter 6 Light Addressable Potentiometric Sensor (LAPS) as Cell-Based Biosensors; 6.1 Introduction; 6.2 Principle; 6.2.1 Fundamental; 6.2.2 Numerical Analysis; 6.3 Device and System; 6.3.1 Device Biosensors. http://id.loc.gov/authorities/subjects/sh85014260 Transducers. http://id.loc.gov/authorities/subjects/sh85136892 Cellular signal transduction. http://id.loc.gov/authorities/subjects/sh89002397 Biosensing Techniques Transducers https://id.nlm.nih.gov/mesh/D014159 Signal Transduction Biocapteurs. Transducteurs. Transduction du signal cellulaire. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biosensors fast Cellular signal transduction fast Transducers fast Wang, Ping, 1959- https://id.oclc.org/worldcat/entity/E39PCjqWbtRdKbQqXPYGFcXMvb http://id.loc.gov/authorities/names/nr97018667 Liu, Qingjun. http://id.loc.gov/authorities/names/n2010180283 Print version: Cell-based biosensors. Boston : Artech House, ©2010 9781596934399 (OCoLC)430839125 Artech House engineering in medicine & biology series. http://id.loc.gov/authorities/names/no2006080811 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=305449 Volltext
spellingShingle	Cell-based biosensors : principles and applications / Artech House engineering in medicine & biology series. Cell-Based Biosensors Principles and Applications; Contents; Foreword; Preface; Acknowledgments; Chapter 1 Introduction; 1.1 Definition of Cell-Based Biosensors; 1.2 Characteristics of Cell-Based Biosensors; 1.3 Types of Cell-Based Biosensors; 1.4 Summary; References; Chapter 2 Cell Culture on Chips; 2.1 Introduction; 2.2 Cell Immobilization Factors; 2.2.1 Physical Factors; 2.2.2 Chemical Factors; 2.2.3 Biological Factors; 2.3 Basic Surface Modification Rules; 2.3.1 Hydrophilicity Improving; 2.3.2 Roughness Changing; 2.3.3 Chemical Coating; 2.4 Typical Methods 2.4.1 Special Physical Structure 2.4.2 Microcontact Printing; 2.4.3 Fast Ink-Jet Printing; 2.4.4 Perforated Microelectrode; 2.4.5 Self-Assembled Monolayer; 2.4.6 Microfluidic Technology; 2.5 Summary; References; Chapter 3 Mechanisms of Cell-Based Biosensors; 3.1 Introduction; 3.2 Metabolic Measurements; 3.2.1 Cell Metabolism; 3.2.2 Extracellular pH Monitoring; 3.2.3 Other Extracellular Metabolite Sensing; 3.2.4 Secondary Transducers; 3.3 Action Potential Measurements; 3.3.1 Action Potential; 3.3.2 The Solid-Electrolyte Interface; 3.3.3 Cell-Electrode Interface Model 3.3.4 Cell-Silicon Interface Model 3.3.5 Secondary Transducers; 3.4 Impedance Measurements; 3.4.1 Membrane Impedance; 3.4.2 Impedance Model of Single Cells; 3.4.3 Impedance Model of Populations of Cells; 3.4.4 Secondary Transducers; 3.5 Noise Sources; 3.5.1 Electrode Noise; 3.5.2 Electromagnetic Interference; 3.5.3 Biological Noise; 3.6 Summary; References; Chapter 4 Microelectrode Array (MEA) as Cell-Based Biosensors; 4.1 Introduction; 4.2 Principle; 4.3 Fabrication and Design of MEA System; 4.3.1 Fabrication; 4.3.2 Different MEA Chips; 4.3.3 Measurement Setup 4.4 Theoretical Analysis of Signal Process in MEA Systems 4.4.1 Equivalent Circuit Model of Signal Process; 4.4.2 Impedance Properties Analysis of MEA; 4.4.3 Analysis of Extracellular Signal; 4.5 Application of MEA; 4.5.1 Dissociated Neural Network on MEA; 4.5.2 Slice on MEA; 4.5.3 Retina on MEA; 4.5.4 Pharmacological Application; 4.6 Development Trends; 4.6.1 Lab on a Chip; 4.6.2 Portable MEA System; 4.6.3 Other Developmental Trends; 4.7 Summary; References; Chapter 5 Field Effect Transistor (FET) as Cell-BasedBiosensors; 5.1 Introduction; 5.2 Principle; 5.3 Device and System 5.3.1 Fabrication of FET-Based Biosensor 5.3.2 FET Sensor System; 5.4 Theoretical Analysis; 5.4.1 Area-Contact Model; 5.4.2 Point-Contact Model; 5.5 Application; 5.5.1 Electrophysiological Recording of Neuronal Activity; 5.5.2 Two-Way Communication Between Silicon Chip and Neuron; 5.5.3 Neuronal Network Study; 5.5.4 Cell Microenvironment Monitoring; 5.6 Development Trends; 5.7 Summary; References; Chapter 6 Light Addressable Potentiometric Sensor (LAPS) as Cell-Based Biosensors; 6.1 Introduction; 6.2 Principle; 6.2.1 Fundamental; 6.2.2 Numerical Analysis; 6.3 Device and System; 6.3.1 Device Biosensors. http://id.loc.gov/authorities/subjects/sh85014260 Transducers. http://id.loc.gov/authorities/subjects/sh85136892 Cellular signal transduction. http://id.loc.gov/authorities/subjects/sh89002397 Biosensing Techniques Transducers https://id.nlm.nih.gov/mesh/D014159 Signal Transduction Biocapteurs. Transducteurs. Transduction du signal cellulaire. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biosensors fast Cellular signal transduction fast Transducers fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85014260 http://id.loc.gov/authorities/subjects/sh85136892 http://id.loc.gov/authorities/subjects/sh89002397 https://id.nlm.nih.gov/mesh/D014159
title	Cell-based biosensors : principles and applications /
title_auth	Cell-based biosensors : principles and applications /
title_exact_search	Cell-based biosensors : principles and applications /
title_full	Cell-based biosensors : principles and applications / Ping Wang, Qingjun Liu, editors.
title_fullStr	Cell-based biosensors : principles and applications / Ping Wang, Qingjun Liu, editors.
title_full_unstemmed	Cell-based biosensors : principles and applications / Ping Wang, Qingjun Liu, editors.
title_short	Cell-based biosensors :
title_sort	cell based biosensors principles and applications
title_sub	principles and applications /
topic	Biosensors. http://id.loc.gov/authorities/subjects/sh85014260 Transducers. http://id.loc.gov/authorities/subjects/sh85136892 Cellular signal transduction. http://id.loc.gov/authorities/subjects/sh89002397 Biosensing Techniques Transducers https://id.nlm.nih.gov/mesh/D014159 Signal Transduction Biocapteurs. Transducteurs. Transduction du signal cellulaire. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biosensors fast Cellular signal transduction fast Transducers fast
topic_facet	Biosensors. Transducers. Cellular signal transduction. Biosensing Techniques Transducers Signal Transduction Biocapteurs. Transducteurs. Transduction du signal cellulaire. TECHNOLOGY & ENGINEERING Engineering (General) TECHNOLOGY & ENGINEERING Reference. Biosensors Cellular signal transduction
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work_keys_str_mv	AT wangping cellbasedbiosensorsprinciplesandapplications AT liuqingjun cellbasedbiosensorsprinciplesandapplications

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