| Description |
1 online resource (196 pages) |
| Contents |
Cover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; Introduction; 1: Challenge of Sensing; 2: Technical Concept: Particle-Based Sensing; 2.1 Requirements; 2.2 Information Transport by Particles; 2.3 Signal Conversion by Particles; 2.4 Particles as Primary Transducers and Secondary Noncontact Signal Transfer; 3: Optical Solutions: Synthesis and Applications of Optical Sensor Particles; 3.1 Optical Transduction Principles for Analyses and Sensing; 3.2 Optical Sensor Particle Types; 3.2.1 Fluorescence Sensing; 3.2.2 Phosphorescence Sensing |
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3.2.3 Signal Formation by Molecular Fluorescence Quenching3.2.4 Signal Transduction by Nanoparticle-Caused Fluorescence Quenching; 3.2.5 Signal Transduction by Nanoparticle-Enhanced Fluorescence; 3.2.6 Analyte Detection by Particle Aggregation-Related Fluorescence Quenching; 3.2.7 Particle-Based Thermal and Optical Sensing of Enzymatic Activities; 3.2.8 Bead-Related Fluorescence Switching; 3.2.9 Particle-Coupled Whole-Cell Sensing; 3.2.10 FRET Transduction; 3.3 Chemoluminescence Transduction; 3.4 Transduction by SERS; 3.5 Plasmonic Particles for Signal Transduction |
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3.6 Particle-Mediated Signal Enforcement at Interfaces3.7 Counting Binding Events by Particle-Mediated Nanolight Valves; 3.8 Nanoparticle-Supported Photothermal Effects and Photoacoustic Imaging; 3.9 Particle-Based Reversible Sensing by Photochemical Switching; 3.10 Hierarchical Particle Architectures for Optical Sensor Applications; 4: Particle-Based Longer-Wavelength Electromagnetic, Magnetic, and Electrostatic Transduction; 4.1 Infrared Readout; 4.2 Particle-Supported Signal Transduction by Micro- and Radiowaves; 4.3 Electrochemical Sensing and Electrical Signal Transfer |
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4.4 Signal Transduction by Magnetic Particles4.5 Ultrasound-Supported Sensing by Particles; 5: Construction Types and Preparation of Sensor Particles; 5.1 One-Component Responsive Nanoparticles; 5.2 Surface-Functionalized Micro- and Nanosensor Particles; 5.2.1 Surface Functionalization for Molecular Recognition Sites; 5.2.2 Fluorescent Silica Particles for Chemical and Biomolecular Sensing; 5.2.3 Fluorescent Carbon Nanoparticles; 5.2.4 Up-Converting Nanoparticles for Biolabeling and Sensing; 5.3 Swellable and Gel-Like Molecular-Doped Polymer Micro- and Nanoparticles |
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5.4 Two-Phase Composite Particles5.5 Multicomponent and Hierarchically Constructed Sensor Particles; 5.5.1 Bi- and Multicomponent Construction Strategies; 5.5.2 Nanoparticle-Doped Core/Shell Microparticles; 5.5.3 Functionalized Microcapsules for Sensing; 5.5.3.1 Formation principle of LBL-coated particles and LBL capsules; 5.6 Special Microfluidic Techniques for Preparation of Sensor Particles; 5.6.1 Particle Formation by Thermal Polymerization of Monomer Droplets; 5.6.2 Particle Formation by Photochemical Polymerization of Monomer Droplets |
| Notes |
5.6.3 Formation of Gel Particles by Photopolymerization of Monomer Solution Droplets |
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Print version record |
| Form |
Electronic book
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| ISBN |
9780429828089 |
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042982808X |
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