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Czujniki pojemnościowe CMOS do zastosowań laboratoryjnych na chipach: podejście multidyscyplinarne–
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Parametry przedmiotu
- Stan
- ISBN-13
- 9789400731806
- Book Title
- CMOS Capacitive Sensors for Lab-on-Chip Applications
- ISBN
- 9789400731806
- Subject Area
- Technology & Engineering, Science
- Publication Name
- Cmos Capacitive Sensors for Lab-On-Chip Applications : a Multidisciplinary Approach
- Publisher
- Springer Netherlands
- Item Length
- 9.3 in
- Subject
- Biotechnology, Electronics / Semiconductors, Electronics / Circuits / General, Sensors, Biomedical
- Publication Year
- 2012
- Series
- Analog Circuits and Signal Processing Ser.
- Type
- Textbook
- Format
- Trade Paperback
- Language
- English
- Item Weight
- 16 Oz
- Item Width
- 6.1 in
- Number of Pages
- X, 146 Pages
O tym produkcie
Product Identifiers
Publisher
Springer Netherlands
ISBN-10
9400731809
ISBN-13
9789400731806
eBay Product ID (ePID)
143941838
Product Key Features
Number of Pages
X, 146 Pages
Language
English
Publication Name
Cmos Capacitive Sensors for Lab-On-Chip Applications : a Multidisciplinary Approach
Publication Year
2012
Subject
Biotechnology, Electronics / Semiconductors, Electronics / Circuits / General, Sensors, Biomedical
Type
Textbook
Subject Area
Technology & Engineering, Science
Series
Analog Circuits and Signal Processing Ser.
Format
Trade Paperback
Dimensions
Item Weight
16 Oz
Item Length
9.3 in
Item Width
6.1 in
Additional Product Features
Intended Audience
Scholarly & Professional
Dewey Edition
22
Number of Volumes
1 vol.
Illustrated
Yes
Dewey Decimal
621.3815
Table Of Content
1: Introduction. 1.1 Overview of Lab-on-Chip. 1.2 From Macro to Micro Bioassays. 1.3 CMOS-Based Lab-on-Chips. 1.4 Objectives and Organization of book. 2: CMOS sensing electrodes. 2.1 On-chip microelectrode configurations. 2.2 Micromachining gold electrode on CMOS chip. 2.3 Electrical model of capacitive sensing electrodes. 2.4 Summary. 3: Capacitive Biochemical Interfaces. 3.1 Biochemical capacitive sensing methods. 3.2 Design of recognition element: An example for CGM. 3.3 Summary. 4: Capacitive Interface circuits. 4.1 LBCS vs. MBCS. 4.2 LBCS methods. 4.3 Core-CBCM interface circuit. 4.4 Core-CBCM ?? capacitive sensor. 4.5 Core-CBCM capacitive sensing system. 4.6 Summary. 5: Microfluidic Packaging Techniques. 5.1 Microfluidic packaging methods. 5.2 Direct-write microfabrication process. 5.3 Direct-write microfluidic packaging procedure. 5.4 Emerging applications of DWFP. 5.5 Summary. 6: Present and Future Technology of Capacitive Biosensors. 6.1 Conventional impedometric and capacitive measurement systems. 6.2 Handheld impedance measurement systems. 6.3 Towards fully integrated capacitive sensing LoC. 6.4 Summary.
Synopsis
This book describes all required components for the design of a CMOS capacitive biosensor. It extensively reviews recent literature on using CMOS processes for Lab-on-Chip applications and emphasizes practical aspects of fully-integrated capacitive biosensors., 1.1 Overview of Lab-on-Chip Laboratory-on-Chip (LoC) is a multidisciplinary approach used for the miniaturization, integration and automation of biological assays or procedures in analytical chemistry [1-3]. Biology and chemistry are experimental sciences that are continuing to evolve and develop new protocols. Each protocol offers step-by-step laboratory instructions, lists of the necessary equipments and required biological and/or chemical substances [4-7]. A biological or chemical laboratory contains various pieces of equipment used for performing such protocols and, as shown in Fig. 1.1, the engineering aspect of LoC design is aiming to embed all these components in a single chip for single-purpose applications. 1.1.1 Main Objectives of LoC Systems Several clear advantages of this technology over conventional approaches, including portability, full automation, ease of operation, low sample consumption and fast assays time, make LoC suitable for many applications including. 1.1.1.1 Highly Throughput Screening To conduct an experiment, a researcher fills a well with the required biological or chemical analytes and keeps the sample in an incubator for some time to allowing the sample to react properly. Afterwards, any changes can be observed using a microscope. In order to quickly conduct millions of biochemical or pharmacolo- cal tests, the researchers will require an automated highly throughput screening (HTS) [8], comprised of a large array of wells, liquid handling devices (e.g., mic- channel, micropump and microvalves [9-11]), a fully controllable incubator and an integrated sensor array, along with the appropriate readout system., 1.1 Overview of Lab-on-Chip Laboratory-on-Chip (LoC) is a multidisciplinary approach used for the miniaturization, integration and automation of biological assays or procedures in analytical chemistry 1-3]. Biology and chemistry are experimental sciences that are continuing to evolve and develop new protocols. Each protocol offers step-by-step laboratory instructions, lists of the necessary equipments and required biological and/or chemical substances 4-7]. A biological or chemical laboratory contains various pieces of equipment used for performing such protocols and, as shown in Fig. 1.1, the engineering aspect of LoC design is aiming to embed all these components in a single chip for single-purpose applications. 1.1.1 Main Objectives of LoC Systems Several clear advantages of this technology over conventional approaches, including portability, full automation, ease of operation, low sample consumption and fast assays time, make LoC suitable for many applications including. 1.1.1.1 Highly Throughput Screening To conduct an experiment, a researcher fills a well with the required biological or chemical analytes and keeps the sample in an incubator for some time to allowing the sample to react properly. Afterwards, any changes can be observed using a microscope. In order to quickly conduct millions of biochemical or pharmacolo- cal tests, the researchers will require an automated highly throughput screening (HTS) 8], comprised of a large array of wells, liquid handling devices (e.g., mic- channel, micropump and microvalves 9-11]), a fully controllable incubator and an integrated sensor array, along with the appropriate readout system., Chapter 1: Introduction 1.1 Overview of Lab-on-Chip (LoC) 1.2 From Macro to Micro Bioassays 1.3 CMOS-Based Lab-on-Chips 1.4 Objectives and Organization of book Chapter 2: CMOS sensing electrodes 2.1 On-chip microelectrode configurations 2.2 Micromachining gold electrode on CMOS chip 2.3 Electrical model of capacitive sensing electrodes 2.4 Summary Chapter 3: Capacitive Biochemical Interfaces 3.1 Biochemical capacitive sensing methods 3.2 Design of recognition element: An example for CGM 3.3 Summary Chapter 4: Capacitive Interface circuits 4.1 LBCS vs. MBCS 4.2 LBCS methods 4.3 Core-CBCM interface circuit 4.4 Core-CBCM sigma-delta capacitive sensor 4.5 Core-CBCM capacitive sensing system 4.6 Summary Chapter 5: Microfluidic Packaging Techniques 5.1 Microfluidic packaging methods 5.2 Direct-write microfabrication process 5.3 Direct-write microfluidic packaging procedure 5.4 Emerging applications of DWFP 5.5 Summary Chapter 6: Present and Future Technology of Capacitive Biosensors 6.1 Conventional impedometric and capacitive measurement systems 6.2 Handheld impedance measurement systems 6.3 Towards fully integrated capacitive sensing LoC 6.4 Summary
LC Classification Number
TK7867-7867.5
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