Literature DB >> 23945603

Electron beam induced local crystallization of HfO2 nanopores for biosensing applications.

Jiwook Shim1, Jose A Rivera, Rashid Bashir.   

Abstract

We report the development of single, locally crystallized nanopores in HfO2 membranes for biosensing applications. HfO2 is chosen for its isoelectric point of 7.0, mechanical and chemical stability in solution, and for its potential as a high-k material for nanopore ionic field effect transistor applications. The HfO2 membrane is deposited on a graphene layer suspended over a 300 nm FIB hole, where graphene is used as the mechanical support. Exposure of the membrane to a focused electron beam causes crystallization in the vicinity of the nanopore during pore formation. We investigate the effects of crystallization on the electrical and surface properties of HfO2 films. Our surface analysis of HfO2 reveals improved hydrophilicity of crystallized HfO2, a notable advantage over the hydrophobicity of as-deposited HfO2. We also demonstrate detection of dsDNA translocation through HfO2 nanopores under various applied bias levels. In addition, our device architecture also presents a promising first step toward the realization of high-k HfO2 nanopore transistors.

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Year:  2013        PMID: 23945603      PMCID: PMC3867606          DOI: 10.1039/c3nr02608f

Source DB:  PubMed          Journal:  Nanoscale        ISSN: 2040-3364            Impact factor:   7.790


  32 in total

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Journal:  ACS Nano       Date:  2011-11-16       Impact factor: 15.881

2.  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

Review 3.  Nanopore analytics: sensing of single molecules.

Authors:  Stefan Howorka; Zuzanna Siwy
Journal:  Chem Soc Rev       Date:  2009-06-15       Impact factor: 54.564

4.  Theoretical and experimental study of nanopore drilling by a focused electron beam in transmission electron microscopy.

Authors:  Hyun-Mi Kim; Min-Hyun Lee; Ki-Bum Kim
Journal:  Nanotechnology       Date:  2011-05-20       Impact factor: 3.874

5.  Experimental observation of the quantum Hall effect and Berry's phase in graphene.

Authors:  Yuanbo Zhang; Yan-Wen Tan; Horst L Stormer; Philip Kim
Journal:  Nature       Date:  2005-11-10       Impact factor: 49.962

Review 6.  Nanopores: A journey towards DNA sequencing.

Authors:  Meni Wanunu
Journal:  Phys Life Rev       Date:  2012-05-18       Impact factor: 11.025

7.  Electrochemistry at the edge of a single graphene layer in a nanopore.

Authors:  Shouvik Banerjee; Jiwook Shim; Jose Rivera; Xiaozhong Jin; David Estrada; Vita Solovyeva; Xueqiu You; James Pak; Eric Pop; Narayana Aluru; Rashid Bashir
Journal:  ACS Nano       Date:  2012-12-28       Impact factor: 15.881

Review 8.  The potential and challenges of nanopore sequencing.

Authors:  Daniel Branton; David W Deamer; Andre Marziali; Hagan Bayley; Steven A Benner; Thomas Butler; Massimiliano Di Ventra; Slaven Garaj; Andrew Hibbs; Xiaohua Huang; Stevan B Jovanovich; Predrag S Krstic; Stuart Lindsay; Xinsheng Sean Ling; Carlos H Mastrangelo; Amit Meller; John S Oliver; Yuriy V Pershin; J Michael Ramsey; Robert Riehn; Gautam V Soni; Vincent Tabard-Cossa; Meni Wanunu; Matthew Wiggin; Jeffery A Schloss
Journal:  Nat Biotechnol       Date:  2008-10       Impact factor: 54.908

9.  Measurement of the elastic properties and intrinsic strength of monolayer graphene.

Authors:  Changgu Lee; Xiaoding Wei; Jeffrey W Kysar; James Hone
Journal:  Science       Date:  2008-07-18       Impact factor: 47.728

10.  Local electrical potential detection of DNA by nanowire-nanopore sensors.

Authors:  Ping Xie; Qihua Xiong; Ying Fang; Quan Qing; Charles M Lieber
Journal:  Nat Nanotechnol       Date:  2011-12-11       Impact factor: 39.213
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  10 in total

1.  Sequencing with graphene pores.

Authors:  Marija Drndić
Journal:  Nat Nanotechnol       Date:  2014-10       Impact factor: 39.213

2.  Programmed synthesis of freestanding graphene nanomembrane arrays.

Authors:  Pradeep Waduge; Joseph Larkin; Moneesh Upmanyu; Swastik Kar; Meni Wanunu
Journal:  Small       Date:  2014-09-18       Impact factor: 13.281

3.  Chemically functionalized conical PET nanopore for protein detection at the single-molecule level.

Authors:  Youwen Zhang; Xiaohan Chen; Ceming Wang; Golbarg M Roozbahani; Hsueh-Chia Chang; Xiyun Guan
Journal:  Biosens Bioelectron       Date:  2020-05-16       Impact factor: 10.618

4.  Detection of methylation on dsDNA using nanopores in a MoS2 membrane.

Authors:  Jiwook Shim; Shouvik Banerjee; Hu Qiu; Kirby K H Smithe; David Estrada; Julian Bello; Eric Pop; Klaus Schulten; Rashid Bashir
Journal:  Nanoscale       Date:  2017-10-12       Impact factor: 7.790

5.  Slow DNA transport through nanopores in hafnium oxide membranes.

Authors:  Joseph Larkin; Robert Henley; David C Bell; Tzahi Cohen-Karni; Jacob K Rosenstein; Meni Wanunu
Journal:  ACS Nano       Date:  2013-10-04       Impact factor: 15.881

Review 6.  Application of Solid-State Nanopore in Protein Detection.

Authors:  Yuhan Luo; Linlin Wu; Jing Tu; Zuhong Lu
Journal:  Int J Mol Sci       Date:  2020-04-17       Impact factor: 5.923

7.  Temperature-Dependent HfO2/Si Interface Structural Evolution and its Mechanism.

Authors:  Xiao-Ying Zhang; Chia-Hsun Hsu; Shui-Yang Lien; Wan-Yu Wu; Sin-Liang Ou; Song-Yan Chen; Wei Huang; Wen-Zhang Zhu; Fei-Bing Xiong; Sam Zhang
Journal:  Nanoscale Res Lett       Date:  2019-03-07       Impact factor: 4.703

8.  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

9.  Tailoring the Anodic Hafnium Oxide Morphology Using Different Organic Solvent Electrolytes.

Authors:  Arlete Apolinário; Célia T Sousa; Gonçalo N P Oliveira; Armandina M L Lopes; João Ventura; Luísa Andrade; Adélio Mendes; João P Araújo
Journal:  Nanomaterials (Basel)       Date:  2020-02-22       Impact factor: 5.076

10.  Low-Area Four-Channel Controlled Dielectric Breakdown System Design for Point-of-Care Applications.

Authors:  Jonggi Hong; Yeonji Oh; Hojong Choi; Jungsuk Kim
Journal:  Sensors (Basel)       Date:  2022-02-28       Impact factor: 3.576
  10 in total

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