Literature DB >> 25556317

The effects of geometry and stability of solid-state nanopores on detecting single DNA molecules.

Ryan Rollings1, Edward Graef, Nathan Walsh, Santoshi Nandivada, Mourad Benamara, Jiali Li.   

Abstract

In this work we use a combination of 3D-TEM tomography, energy filtered TEM, single molecule DNA translocation experiments, and numerical modeling to show a more precise relationship between nanopore shape and ionic conductance and show that changes in geometry while in solution can account for most deviations between predicted and measured conductance. We compare the structural stability of ion beam sculpted (IBS), IBS-annealed, and TEM drilled nanopores. We demonstrate that annealing can significantly improve the stability of IBS made pores. Furthermore, the methods developed in this work can be used to predict pore conductance and current drop amplitudes of DNA translocation events for a wide variety of pore geometries. We discuss that chemical dissolution is one mechanism of the geometry change for SiNx nanopores and show that small modification in fabrication procedure can significantly increase the stability of IBS nanopores.

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Year:  2015        PMID: 25556317      PMCID: PMC4288979          DOI: 10.1088/0957-4484/26/4/044001

Source DB:  PubMed          Journal:  Nanotechnology        ISSN: 0957-4484            Impact factor:   3.874


  36 in total

1.  Ion-beam sculpting at nanometre length scales.

Authors:  J Li; D Stein; C McMullan; D Branton; M J Aziz; J A Golovchenko
Journal:  Nature       Date:  2001-07-12       Impact factor: 49.962

2.  Fabrication of solid-state nanopores with single-nanometre precision.

Authors:  A J Storm; J H Chen; X S Ling; H W Zandbergen; C Dekker
Journal:  Nat Mater       Date:  2003-08       Impact factor: 43.841

3.  Rapid electronic detection of probe-specific microRNAs using thin nanopore sensors.

Authors:  Meni Wanunu; Tali Dadosh; Vishva Ray; Jingmin Jin; Larry McReynolds; Marija Drndić
Journal:  Nat Nanotechnol       Date:  2010-10-24       Impact factor: 39.213

4.  DNA translocation through graphene nanopores.

Authors:  Grégory F Schneider; Stefan W Kowalczyk; Victor E Calado; Grégory Pandraud; Henny W Zandbergen; Lieven M K Vandersypen; Cees Dekker
Journal:  Nano Lett       Date:  2010-08-11       Impact factor: 11.189

5.  Detecting single stranded DNA with a solid state nanopore.

Authors:  Daniel Fologea; Marc Gershow; Bradley Ledden; David S McNabb; Jene A Golovchenko; Jiali Li
Journal:  Nano Lett       Date:  2005-10       Impact factor: 11.189

6.  DNA translocation governed by interactions with solid-state nanopores.

Authors:  Meni Wanunu; Jason Sutin; Ben McNally; Andrew Chow; Amit Meller
Journal:  Biophys J       Date:  2008-08-15       Impact factor: 4.033

7.  Modeling the conductance and DNA blockade of solid-state nanopores.

Authors:  Stefan W Kowalczyk; Alexander Y Grosberg; Yitzhak Rabin; Cees Dekker
Journal:  Nanotechnology       Date:  2011-07-06       Impact factor: 3.874

Review 8.  Three-dimensional reconstruction of single particles from random and nonrandom tilt series.

Authors:  M Radermacher
Journal:  J Electron Microsc Tech       Date:  1988-08

9.  Dissolution Kinetics of Silicon Nitride in Aqueous Suspension.

Authors: 
Journal:  J Colloid Interface Sci       Date:  1999-10-15       Impact factor: 8.128

10.  Shrinking of Solid-state Nanopores by Direct Thermal Heating.

Authors:  Waseem Asghar; Azhar Ilyas; Joseph Anthony Billo; Samir Muzaffar Iqbal
Journal:  Nanoscale Res Lett       Date:  2011-05-04       Impact factor: 4.703
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  9 in total

1.  Electrical pulse fabrication of graphene nanopores in electrolyte solution.

Authors:  Aaron T Kuan; Bo Lu; Ping Xie; Tamas Szalay; Jene A Golovchenko
Journal:  Appl Phys Lett       Date:  2015-05-22       Impact factor: 3.791

2.  A tip-attached tuning fork sensor for the control of DNA translocation through a nanopore.

Authors:  Changbae Hyun; Harpreet Kaur; Tao Huang; Jiali Li
Journal:  Rev Sci Instrum       Date:  2017-02       Impact factor: 1.523

Review 3.  Localized Nanopore Fabrication via Controlled Breakdown.

Authors:  Cuifeng Ying; Tianji Ma; Lei Xu; Mohsen Rahmani
Journal:  Nanomaterials (Basel)       Date:  2022-07-12       Impact factor: 5.719

4.  Extrinsic Cation Selectivity of 2D Membranes.

Authors:  Michael I Walker; Krystian Ubych; Vivek Saraswat; Edward A Chalklen; Philipp Braeuninger-Weimer; Sabina Caneva; Robert S Weatherup; Stephan Hofmann; Ulrich F Keyser
Journal:  ACS Nano       Date:  2017-02-16       Impact factor: 15.881

5.  Controlled Focused Ion Beam Milling of Composite Solid State Nanopore Arrays for Molecule Sensing.

Authors:  Péter Fürjes
Journal:  Micromachines (Basel)       Date:  2019-11-13       Impact factor: 2.891

6.  Dynamics of DNA Clogging in Hafnium Oxide Nanopores.

Authors:  Shiyu Li; Shuangshuang Zeng; Chenyu Wen; Laurent Barbe; Maria Tenje; Zhen Zhang; Klas Hjort; Shi-Li Zhang
Journal:  J Phys Chem B       Date:  2020-12-14       Impact factor: 2.991

Review 7.  Nanopore sensors for viral particle quantification: current progress and future prospects.

Authors:  Shiva Akhtarian; Saba Miri; Ali Doostmohammadi; Satinder Kaur Brar; Pouya Rezai
Journal:  Bioengineered       Date:  2021-12       Impact factor: 3.269

Review 8.  Epigenetic tumor heterogeneity in the era of single-cell profiling with nanopore sequencing.

Authors:  Yohannis Wondwosen Ahmed; Berhan Ababaw Alemu; Sisay Addisu Bekele; Solomon Tebeje Gizaw; Muluken Fekadie Zerihun; Endriyas Kelta Wabalo; Maria Degef Teklemariam; Tsehayneh Kelemu Mihrete; Endris Yibru Hanurry; Tensae Gebru Amogne; Assaye Desalegne Gebrehiwot; Tamirat Nida Berga; Ebsitu Abate Haile; Dessiet Oma Edo; Bizuwork Derebew Alemu
Journal:  Clin Epigenetics       Date:  2022-08-27       Impact factor: 7.259

9.  Can Nanofluidic Chemical Release Enable Fast, High Resolution Neurotransmitter-Based Neurostimulation?

Authors:  Peter D Jones; Martin Stelzle
Journal:  Front Neurosci       Date:  2016-03-31       Impact factor: 4.677
  9 in total

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