Carbon-based nanosensor technology /
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| Format: | eBook |
| Language: | English |
| Published: |
Cham, Switzerland :
Springer,
[2019]
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| Series: | Springer series on chemical sensors and biosensors ;
17. |
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Intro; Series Editor; Aims and Scope; Preface; Contents; Diamond Nanowires: A Recent Success Story for Biosensing; 1 Introduction; 2 Synthetic Routes of Diamond Nanowires; 2.1 Top-Down Procedure; 2.2 Bottom-Up Approaches; 3 Diamond Nanowires for Electrochemical Sensing; 4 Conclusion; References; Boron-Doped Diamond and Graphitic Multiarrays for Neurotransmitter Sensing; 1 Technology and Characterization; 1.1 Introduction; 1.2 Noise Considerations; 1.3 Technology for Planar Multielectrode Arrays (MEA); 1.4 Technology for Flexible Implantable Arrays
- 1.5 Diamond Graphitization by Ion Implantation1.6 Micrographitic Single-Crystal Diamond MEA; 1.7 Electrochemical Characterization (EIS, Potential Window, Activity with Redox Couples); 1.8 Material Characterization with Raman Spectroscopy; 1.9 Optical Transmittance; 2 Sensing Neurotransmitter Release by Means of BDD and Graphitic Multiarrays; 2.1 Quantal Exocytosis in Neurons and Neuroendocrine Cells; 2.2 The Synaptic Vesicle Cycle; 2.3 The Amperometric Spike to Monitor the Quantal Exocytotic Event
- 2.4 Interfacing BDD and Graphitic MEAs and UMEAs with Cultured Cells for Measuring Multisite Quantal Exocytosis2.5 Performance of BDD and Graphitic MEAs for Neurotransmitter Sensing; 2.6 BDD Microelectrodes for In Vivo Detection of Electroactive Molecules; 3 New Perspectives; 3.1 Toward Multitask Sensing Using BDD Microarrays; 3.2 NV Centers: What Are They?; 3.3 Optically Detected Magnetic Resonance; 3.4 State of the Art of ODMR on Biological Application; 4 Conclusions; References; Heavy Metal Sensing Based on Diamond Electrodes; 1 Introduction
- 2 Principle of Electrochemical Detection of Heavy Metal Ions2.1 Unmodified BDD Electrode; 2.2 Modified BDD Electrodes; 2.2.1 Gold; 2.2.2 Bismuth; 2.2.3 Antimony; 2.2.4 Iridium; 2.2.5 Biological Material; 2.3 BDD Microelectrodes, Microarray Electrodes, and Microcell; 2.4 Nanodiamond Electrodes; 2.5 Diamond-Like Carbon; 3 Voltammetry Integrated Method; 3.1 Microwave Enhanced Analysis; 3.2 Sonoelectrochemical Analysis; 4 Summary and Future Perspectives; References; Diamond Waveguides for Infrared Spectroscopy and Sensing; 1 Introduction; 2 Properties of Diamond for Optical Sensing
- 3 Fabrication and Structuring of Diamond Waveguides4 Characterization of Diamond Waveguides; 5 Surface Modification of Diamond; 6 Applications; 6.1 Chemical Sensing; 6.2 Biosensing; 6.3 Spectroelectrochemistry; 6.4 Other Applications; 7 Summary; References; Diamond Nanoparticles for Drug Delivery and Monitoring; 1 Introduction; 2 Nanodiamond-Mediated Drug Delivery; 2.1 Small Molecule Delivery; 2.2 Peptide and Protein Delivery; 2.3 Gene Delivery; 3 Nanodiamond-Based Imaging and Monitoring; 3.1 Fluorescence Imaging; 3.2 Photoacoustic Imaging; 3.3 Cathodoluminescence Imaging