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Biosensors and Biodetection

Overview of attention for book
Cover of 'Biosensors and Biodetection'

Table of Contents

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    Book Overview
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    Chapter 1 A Reagentless, Screen-Printed Amperometric Biosensor for the Determination of Glutamate in Food and Clinical Applications
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    Chapter 2 An Electrochemical DNA Sensing System Using Modified Nanoparticle Probes for Detecting Methicillin-Resistant Staphylococcus aureus
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    Chapter 3 Electrochemical Lateral Flow Paper Strip for Oxidative-Stress Induced DNA Damage Assessment
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    Chapter 4 Application of a Nanostructured Enzymatic Biosensor Based on Fullerene and Gold Nanoparticles to Polyphenol Detection
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    Chapter 5 Screen-Printed All-Polymer Aptasensor for Impedance Based Detection of Influenza A Virus
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    Chapter 6 Microfluidic Arrayed Lab-On-A-Chip for Electrochemical Capacitive Detection of DNA Hybridization Events
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    Chapter 7 Enzymatic Detection of Traumatic Brain Injury Related Biomarkers
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    Chapter 8 Bacterial Detection Using Peptide-Based Platform and Impedance Spectroscopy
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    Chapter 9 Fabrication of Lab-on-Paper Using Porous Au-Paper Electrode: Application to Tumor Marker Electrochemical Immunoassays
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    Chapter 10 Electrochemical Biosensors Combined with Isothermal Amplification for Quantitative Detection of Nucleic Acids
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    Chapter 11 A Mini-Electrochemical System with Integrated Micropipet Tip and Pencil Graphite Electrode for Measuring Cytotoxicity
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    Chapter 12 All-Electrical Graphene DNA Sensor Array
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    Chapter 13 Extended Gate Field-Effect Transistor Biosensors for Point-Of-Care Testing of Uric Acid
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    Chapter 14 Highly Sensitive Glucose Sensor Based on Organic Electrochemical Transistor with Modified Gate Electrode
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    Chapter 15 Fabrication of Hydrogenated Diamond Metal–Insulator–Semiconductor Field-Effect Transistors
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    Chapter 16 A Light-Addressable Potentiometric Sensor for Odorant Detection Using Single Bioengineered Olfactory Sensory Neurons as Sensing Element
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    Chapter 17 Piezoelectric Cantilever Biosensors for Label-free, Real-time Detection of DNA and RNA
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    Chapter 18 Electrochemical Quartz Crystal Nanobalance (EQCN) Based Biosensor for Sensitive Detection of Antibiotic Residues in Milk
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    Chapter 19 Development of Novel Piezoelectric Biosensor Using PZT Ceramic Resonator for Detection of Cancer Markers
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    Chapter 20 Finger-Powered Electro-Digital-Microfluidics
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    Chapter 21 Monitoring the Cellular Binding Events with Quartz Crystal Microbalance (QCM) Biosensors
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    Chapter 22 Piezoelectric Plate Sensor (PEPS) for Analysis of Specific KRAS Point Mutations at Low Copy Number in Urine Without DNA Isolation or Amplification
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    Chapter 23 Synthetic Cell-Based Sensors with Programmed Selectivity and Sensitivity
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    Chapter 24 Dynamic Antibiotic Susceptibility Test via a 3D Microfluidic Culture Device
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    Chapter 25 Aptasensors for Detection of Avian Influenza Virus H5N1
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    Chapter 26 Optical and Electrochemical Aptasensors for Sensitive Detection of Streptomycin in Blood Serum and Milk
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    Chapter 27 A Lateral Flow Biosensor for the Detection of Single Nucleotide Polymorphisms
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    Chapter 28 Loop-Mediated Isothermal Amplification and LFD Combination for Detection of Plasmodium falciparum and Plasmodium vivax
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    Chapter 29 Characterization of In Vivo Selected Bacteriophage for the Development of Novel Tumor-Targeting Agents with Specific Pharmacokinetics and Imaging Applications
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    Chapter 30 Microfluidic “Pouch” Chips for Immunoassays and Nucleic Acid Amplification Tests
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    Chapter 31 Functionalized Vesicles by Microfluidic Device
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    Chapter 32 Filtration and Analysis of Circulating Cancer Associated Cells from the Blood of Cancer Patients
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    Chapter 33 Inkjet-Printed Paper Fluidic Devices for Onsite Detection of Antibiotics Using Surface-Enhanced Raman Spectroscopy
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    Chapter 34 High Resolution Microultrasound (μUS) Investigation of the Gastrointestinal (GI) Tract
Attention for Chapter 12: All-Electrical Graphene DNA Sensor Array
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Chapter title
All-Electrical Graphene DNA Sensor Array
Chapter number 12
Book title
Biosensors and Biodetection
Published in
Methods in molecular biology, March 2017
DOI 10.1007/978-1-4939-6911-1_12
Pubmed ID
28299688
Book ISBNs
978-1-4939-6910-4, 978-1-4939-6911-1
Authors

Jeffrey Abbott, Donhee Ham, Guangyu Xu

Editors

Ben Prickril, Avraham Rasooly

Abstract

Electrical sensing of biomolecules has been an important pursuit due to the label-free operation and chip-scale construct such sensing modality can enable. In particular, electrical biomolecular sensors based on nanomaterials such as semiconductor nanowires, carbon nanotubes, and graphene have demonstrated high sensitivity, which in the case of nanowires and carbon nanotubes can surpass typical optical detection sensitivity. Among these nanomaterials, graphene is well suited for a practical candidate for implementing a large-scale array of biomolecular sensors, as its two-dimensional morphology is readily compatible with industry standard top-down fabrication techniques. In our recent work published in 2014 Nature Communications, we demonstrated these benefits by creating DNA sensor arrays from chemical vapor deposition (CVD) graphene. The present chapter, which is a review of this recent work, outlines procedures demonstrating the use of individual graphene sites of the array in dual roles--electrophoretic electrodes for site specific probe DNA immobilization and field effect transistor (FET) sensors for detection of target DNA hybridization. The 100 fM detection sensitivity achieved in 7 out of 8 graphene FET sensors in the array combined with the alternative use of the graphene channels as electrophoretic electrodes for probe deposition represent steps toward creating an all-electrical multiplexed DNA array.

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Mendeley readers

The data shown below were compiled from readership statistics for 6 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 6 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 2 33%
Unspecified 1 17%
Researcher 1 17%
Unknown 2 33%
Readers by discipline Count As %
Unspecified 1 17%
Physics and Astronomy 1 17%
Engineering 1 17%
Unknown 3 50%

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