Results 11 to 20 of about 26,938 (308)
Aerolysin Nanopores for Single-Molecule Analysis
Biological nanopores have become powerful tools for single-molecule analysis in many fields, including metal ion detection, single-molecule chemistry, polymer size discrimination, nucleic acid sequencing, and protein/peptide/glycan analysis.
Yun Zhang, Chan Cao
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Single molecule sensing by nanopores and nanopore devices [PDF]
Molecular-scale pore structures, called nanopores, can be assembled by protein ion channels through genetic engineering or be artificially fabricated on solid substrates using fashion nanotechnology. When target molecules interact with the functionalized lumen of a nanopore, they characteristically block the ion pathway.
Li-Qun, Gu, Ji Wook, Shim
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The current review article attempts to cover the field of nanoporous materials, thereby materials with voids of the order of 1 nm to 100 nm or even larger. Concepts, that have an effect on a more general basis, are introduced and the common features among the different classes of nanoporous materials are demonstrated enabling understanding their ...
Polarz, Sebastian, Smarsly, Bernd
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Deep Reactive Ion Etching of Cylindrical Nanopores in Silicon for Photonic Crystals
Periodic arrays of deep nanopores etched in silicon by deep reactive ion etching are desirable structures for photonic crystals and other nanostructure for silicon nanophotonics. Previous studies focused on realizing as deep as possible nanopores with as
Melissa J, Goodwin +3 more
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How Nanopores Influence Dry-Frame VP Pressure Sensitivity
This paper investigates how nanopore size distribution influences dry-frame P-wave velocity (VP) pressure sensitivity. The study uses a set of twenty-three samples belonging to a single vertical core from the Mississippian-age Meramec formation of the ...
Rohit Raj +4 more
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Controlling DNA Translocation Through Solid-state Nanopores
Compared with the status of bio-nanopores, there are still several challenges that need to be overcome before solid-state nanopores can be applied in commercial DNA sequencing. Low spatial and low temporal resolution are the two major challenges.
Zhishan Yuan +4 more
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Nanosecond Pulsed Electric Field (nsPEF or Nano Pulsed Stimulation, NPS) is a technology that delivers a series of pulses of high-voltage electric fields during a short period of time, in the order of nanoseconds. The main consequence of nsPEF upon cells
Alvaro R. Ruiz-Fernández +4 more
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The evolution of nanopore sequencing [PDF]
The "$1000 Genome" project has been drawing increasing attention since its launch a decade ago. Nanopore sequencing, the third-generation, is believed to be one of the most promising sequencing technologies to reach four gold standards set for the "$1000 Genome" while the second-generation sequencing technologies are bringing about a revolution in life
Wang, Yue, Yang, Qiuping, Wang, Zhimin
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Carbon nanopores for DNA sequencing: a review on nanopore materials
Herein, we review the recent progress and achievements in carbon nanopore sequencing based on materials, including the selection of carbon nanomaterials, technologies for nanopore formation, and future perspectives of carbon nanopore sequencing.
Jing Xu, Xin Jiang, Nianjun Yang
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