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Carbon-based nanosensor technology

Author: C Kranz
Publisher: Cham, Switzerland : Springer, [2019]
Series: Springer series on chemical sensors and biosensors, 17.
Edition/Format:  eBook : Document : EnglishView all editions and formats
Summary:
Carbon nanomaterials have gained relevance in chem/bio sensing applications owing to their unique chemical, mechanical, electrical, and thermal characteristics. Written by leading experts in the field, this book discusses selected, state-of-the art carbon-based nanomaterials, including nanodiamonds, graphene nanodots, carbon nanopores, and nanocellulose. It presents examples of chem/bio sensing applications ranging  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Carbon-based nanosensor technology.
Cham, Switzerland : Springer, [2019]
(OCoLC)1080245799
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: C Kranz
ISBN: 9783030118648 3030118649 9783030118631 3030118630
OCLC Number: 1085566666
Description: 1 online resource : illustrations
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
Series Title: Springer series on chemical sensors and biosensors, 17.
Responsibility: Christine Kranz, editor.

Abstract:

Carbon nanomaterials have gained relevance in chem/bio sensing applications owing to their unique chemical, mechanical, electrical, and thermal characteristics.  Read more...

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