Paper-Based Optical Chemosensors
- 1st Edition - November 13, 2024
- Editor: Liang Feng
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 1 3 3 5 6 - 5
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 1 3 3 5 7 - 2
Paper-based Optical Chemosensors comprehensively discusses the origin, development, and current state-of-the-art in paper-based sensors. With a focus on the principles, classific… Read more
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Request a sales quotePaper-based Optical Chemosensors comprehensively discusses the origin, development, and current state-of-the-art in paper-based sensors. With a focus on the principles, classifications, methodology, design, and application of paper-based sensors, this book represents a developing research field with recent innovative applications resulting in a comprehensive presentation of the different physico-chemical techniques using paper sensors. It discloses underlying rules and factors in paper-based sensors and discusses intricate sensing systems and working environments by ways of chemistry and physics for a variety of application scenarios such as environmental protection, food safety, public safety, and clinical diagnosis.
This is a valuable resource for researchers who major in analytical chemistry, or for those who are interested in the development of methods or devices for rapid analysis/monitoring based on paper/membrane-based sensors who wish to broaden their knowledge in the allied field.
- Presents a comprehensive discussion on the current state, challenges, and future perspectives of paper-based optical chemosensors
- Offers discussions on the classification, methodology, design, and application of paper based sensors
- Provides opportunities for readers to design paper based sensors with specific purpose and deeper awareness
Researchers who major in analytical chemistry and researchers interested in the development of methods or devices for rapid analysis/monitoring based on paper/membrane-based sensors. Researchers who major in chemistry, biology, physic, medicine, artificial intelligence or other subjects but are interested in interdisciplinary studies.
- Paper-Based Optical Chemosensors
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Preface
- Chapter 1 A brief history of paper-based sensors
- Abstract
- Keywords
- 1 Development of paper material
- 2 Sensor
- 3 Evolution in paper-based sensors
- 3.1 Paper-based color index
- 3.2 Litmus paper
- 3.3 Spot test paper
- 3.4 Paper chromatography
- 3.5 Paper-based electrophoresis
- 3.6 Microfluidic paper-based sensor
- 3.7 Lateral flow strip
- 3.8 Sample pretreatment
- 4 Challenges and countermeasures in the development of paper-based sensors
- 4.1 Quantify
- 4.2 Sensitivity
- 4.3 Integration
- 5 Conclusion
- References
- Chapter 2 Basic principles of paper-based sensors
- Abstract
- Keywords
- 1 Introduction
- 2 Colorimetric
- 2.1 Principle of paper-based colorimetric sensor
- 2.2 Methods of colorimetric paper-based sensors
- 2.3 Application of colorimetric paper-based sensors biomedicine
- 2.4 Summary
- 3 Fluorometric
- 3.1 Principle of fluorometric paper-based sensors
- 3.2 Detection methods of fluorometric paper-based sensors
- 3.3 Application of fluorometric paper-based sensors
- 3.4 Summary
- 4 Surface-enhanced Raman scattering
- 4.1 Principle of SERS paper-based sensors
- 4.2 Methods of SERS paper-based sensors
- 4.3 Application of SERS paper-based sensors
- 4.4 Summary
- 5 Chemiluminescence
- 5.1 Principle of chemiluminescence paper-based sensors
- 5.2 Methods of chemiluminescence paper-based sensors
- 5.3 Application of chemiluminescence paper-based sensors
- 5.4 Summary
- 6 Electrochemiluminescence
- 6.1 Principle of electrochemiluminescence paper-based sensors
- 6.2 Methods of electrochemiluminescence paper-based sensors
- 6.3 Application of electrochemiluminescence paper-based sensors
- 6.4 Summary
- 7 Summary
- References
- Chapter 3 Basic structure composition of paper-based sensors
- Abstract
- Keywords
- 1 Introduction
- 2 Matrix and skeleton (principle, method)
- 2.1 Selection of paper matrix
- 2.2 Classification of paper-based chips
- 2.3 Preparation of paper-based chips
- 3 Sensing layer (principle, method)
- 3.1 Colorimetric paper-based sensors
- 3.2 Fluorescence paper-based sensors
- 3.3 Electrochemiluminescence paper-based sensors
- 3.4 Electrochemical paper-based sensors
- 3.5 Photoelectrochemical paper-based sensors
- 3.6 Surface-enhanced Raman scattering paper-based sensors
- 4 Interface regulation (principle, method)
- 4.1 Carbon
- 4.2 Metallic oxide
- 4.3 Metal–organic frameworks
- 4.4 Noble metal nanoparticles
- 4.5 DNA nanostructures
- 5 Nanopore/nanochannel (principle, method)
- 6 Fluids (principle, method)
- 6.1 Geometric control
- 6.2 Chemical technology control
- 6.3 Mechanical technology control
- 6.4 Constant-width channels
- 6.5 Varying-width channels
- 7 Conclusions and future perspectives
- References
- Chapter 4 Design principles of paper-based sensors
- Abstract
- Keywords
- Acknowledgments
- 1 Introduction
- 2 Dipstick (principle, method, application)
- 2.1 Dipstick assay principle
- 2.2 Dipstick assay methodologies
- 2.3 Applications of the dipstick assay in various industries
- 2.4 Innovations and advancements in dipstick assay technology
- 3 Lateral flow/vertical flow (principle, method, application)
- 3.1 Basics and assay formats of lateral flow/vertical flow
- 3.2 Optical quantification methods
- 3.3 Optical NPs in LFAs
- 3.4 Applications of lateral flow technology
- 4 Microfluidic (principle, method, application)
- 4.1 Principal and method of μPAD
- 4.2 Applications of μPAD
- 5 Array based (principle, method, application)
- 5.1 Principle of paper-based sensor arrays
- 5.2 Fabrication methods
- 5.3 Applications
- 6 Summary
- References
- Chapter 5 Signal read-out of paper-based sensors
- Abstract
- Keywords
- 1 Introduction
- 2 Read-out principles
- 2.1 Colorimetric read-out
- 2.2 Fluorescence
- 2.3 Surface enhancement of Raman scattering (SERS)
- 2.4 Chemiluminescence and electrochemiluminescence read-out
- 3 Calibration
- 4 Optical detecting platforms
- 4.1 Colorimetric detection platforms
- 4.2 Fluorescence
- 4.3 SERS
- 4.4 CL and ECL detecting platforms
- 5 Data processing
- 5.1 Signal conversion
- 5.2 Feature extraction
- 5.3 Data analysis
- References
- Chapter 6 Fabrication of optical chemical paper-based sensors
- Abstract
- Keywords
- 1 Introduction
- 2 Sensing units
- 2.1 Organic molecular probes
- 2.2 Nanomaterials
- 2.3 Biomolecules
- 3 Immobilization method
- 3.1 Physical adsorption
- 3.2 Physical trapping
- 3.3 Covalent binding
- 4 Interface and channels
- 5 Conclusions and future perspectives
- References
- Chapter 7 The application of the paper-based optical chemosensors
- Abstract
- Keywords
- 1 Introduction
- 1.1 Environmental monitoring
- 1.2 Food safety control
- 1.3 Public safety detection
- 1.4 Bioanalysis application
- 2 Outlook of the paper-based chemosensors
- References
- Chapter 8 Challenges and trends in paper-based optical sensors
- Abstract
- Keywords
- Acknowledgments
- 1 Sensitivity and detection limit
- 2 Selectivity
- 3 Stability
- 4 Multiplex capability
- 5 Fabrication of paper substrates
- 6 Paper materials
- 7 Sample collection
- 8 Toward smart optical paper sensors
- References
- Index
- No. of pages: 464
- Language: English
- Edition: 1
- Published: November 13, 2024
- Imprint: Elsevier
- Paperback ISBN: 9780443133565
- eBook ISBN: 9780443133572
LF
Liang Feng
Prof. Liang Feng, Director of Department of Instrumentation and Analytical Chemistry in Dalian Institute of Chemical Physics of CAS. Prof. Feng received his PhD in analytical chemistry from Wuhan University in 2005. He subsequently joined Nobel Laureate Paul C. Lauterbur’s group. In 2007, he moved to Prof. Kenneth S. Suslick’s group as a postdoc researcher in University of Illinois at Urbana-Champaign. In 2009, he joined Dalian institute of chemical physics as a tenure track professor. His main research focuses on the development of optical chemsensors, electrochemical sensors, array-based sensors etc. for the determination of environmental pollutants, including pesticides residues, heavy-metal ions, poisonous anions, toxic gases, formaldehyde, etc.
Affiliations and expertise
Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, ChinaRead Paper-Based Optical Chemosensors on ScienceDirect