Nanopore-Based Technology

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Cover of 'Nanopore-Based Technology'

Table of Contents

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Book Overview
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Chapter 1 Detecting and Characterizing Individual Molecules with Single Nanopores
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Chapter 2 Protein Sensing with Engineered Protein Nanopores
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Chapter 3 Measurements of DNA Immobilized in the Alpha-Hemolysin Nanopore
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Chapter 4 DNA Unzipping and Protein Unfolding Using Nanopores
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Chapter 5 DNA Characterization with Ion Beam-Sculpted Silicon Nitride Nanopores
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Chapter 6 DNA Sequencing by Nanopore-Induced Photon Emission
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Chapter 7 Optical tweezers for mechanical control over DNA in a nanopore.
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Chapter 8 Analyzing single DNA molecules by nanopore translocation.
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Chapter 9 DNA Characterization by Transverse Electrical Current in a Nanochannel
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Chapter 10 Optimization of the Molecular Dynamics Method for Simulations of DNA and Ion Transport Through Biological Nanopores
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Chapter 11 Polymer Translocation Through an Electrically Tunable Nanopore in a Multilayered Semiconductor Membrane
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Chapter 12 Graphene Nanopore Devices for DNA Sensing
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Chapter 13 Measuring Single-Wall Carbon Nanotubes with Solid-State Nanopores
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Chapter 14 Passive and Electrically Actuated Solid-State Nanopores for Sensing and Manipulating DNA

Attention for Chapter 14: Passive and Electrically Actuated Solid-State Nanopores for Sensing and Manipulating DNA

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Citations

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Chapter title	Passive and Electrically Actuated Solid-State Nanopores for Sensing and Manipulating DNA
Chapter number	14
Book title	Nanopore-Based Technology
Published in	Methods in molecular biology, February 2012
DOI	10.1007/978-1-61779-773-6_14
Pubmed ID	22528268
Book ISBNs	978-1-61779-772-9, 978-1-61779-773-6
Authors	Zhijun Jiang, Mirna Mihovilovic, Erin Teich, Derek Stein
Editors	Maria E. Gracheva
Abstract	Solid-state nanopores have emerged as powerful new tools for electrically characterizing single DNA molecules. When DNA molecules are made to rapidly translocate a nanopore by electrophoresis, the resulting ionic current blockage provides information about the molecular length and folding conformation. A solid-state nanopore can also be integrated with nanofabricated actuators and sensors, such as an embedded gate electrode or transverse tunneling electrodes, to enhance its functionality. Here we describe detailed methods for fabricating passive solid-state nanopores and using them to detect DNA translocations. We also describe procedures for integrating electrodes into the nanopore membrane in order to create an electrically active structure. Finally, we describe how to modulate the ionic conductance through a pore whose inner surface is surrounded by an embedded annular gate electrode.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 11 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country	Count	As %
Unknown	11	100%

Demographic breakdown

Readers by professional status	Count	As %
Student > Ph. D. Student	4	36%
Professor	1	9%
Student > Master	1	9%
Researcher	1	9%
Professor > Associate Professor	1	9%
Other	1	9%
Unknown	2	18%

Readers by discipline	Count	As %
Biochemistry, Genetics and Molecular Biology	2	18%
Physics and Astronomy	2	18%
Agricultural and Biological Sciences	1	9%
Medicine and Dentistry	1	9%
Chemistry	1	9%
Other	2	18%
Unknown	2	18%