Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor

Stephanie G. Grancharov; Hao Zeng; Shouheng Sun; Shan X. Wang; Stephen O'Brien; C. B. Murray; J. R. Kirtley; G. A. Held

doi:10.1021/jp051098c

Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor

Stephanie G. Grancharov
, Hao Zeng
, Shouheng Sun
, Shan X. Wang
, Stephen O'Brien
, C. B. Murray
, J. R. Kirtley
, G. A. Held

Physics

IBM
Columbia University
Stanford University

Research output: Contribution to journal › Article › peer-review

225 Scopus citations

Abstract

Monodisperse magnetic nanoparticles (NPs) could enable the ultra-sensitive magnetic detection of biological analytes. However, rendering these particles biocompatible has remained a challenge. We report the biofunctionalization and detection of 12-nm manganese ferrite NPs. We have achieved the site-specific binding of biotin-functionalized NPs onto avidin-patterned silicon oxide substrates and DNA-functionalized NPs onto complementary DNA-patterned silicon oxide substrates. Utilizing scanning SQUID microscopy, we show that these substrate-bound NPs retain their magnetic properties. Finally, we demonstrate a novel method of detecting either protein binding or DNA hybridization at room temperature using the NPs and a magnetic tunnel-junction-based biosensor situated in orthogonal magnetic fields.

Original language	English
Pages (from-to)	13030-13035
Number of pages	6
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	26
DOIs	https://doi.org/10.1021/jp051098c
State	Published - Jul 7 2005

Access to Document

10.1021/jp051098c

Cite this

@article{1960601c9b0d429eb014dedcbf0dd874,

title = "Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor",

abstract = "Monodisperse magnetic nanoparticles (NPs) could enable the ultra-sensitive magnetic detection of biological analytes. However, rendering these particles biocompatible has remained a challenge. We report the biofunctionalization and detection of 12-nm manganese ferrite NPs. We have achieved the site-specific binding of biotin-functionalized NPs onto avidin-patterned silicon oxide substrates and DNA-functionalized NPs onto complementary DNA-patterned silicon oxide substrates. Utilizing scanning SQUID microscopy, we show that these substrate-bound NPs retain their magnetic properties. Finally, we demonstrate a novel method of detecting either protein binding or DNA hybridization at room temperature using the NPs and a magnetic tunnel-junction-based biosensor situated in orthogonal magnetic fields.",

author = "Grancharov, \{Stephanie G.\} and Hao Zeng and Shouheng Sun and Wang, \{Shan X.\} and Stephen O'Brien and Murray, \{C. B.\} and Kirtley, \{J. R.\} and Held, \{G. A.\}",

year = "2005",

month = jul,

day = "7",

doi = "10.1021/jp051098c",

language = "English",

volume = "109",

pages = "13030--13035",

journal = "Journal of Physical Chemistry B",

issn = "1520-6106",

publisher = "American Chemical Society",

number = "26",

}

TY - JOUR

T1 - Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor

AU - Grancharov, Stephanie G.

AU - Zeng, Hao

AU - Sun, Shouheng

AU - Wang, Shan X.

AU - O'Brien, Stephen

AU - Murray, C. B.

AU - Kirtley, J. R.

AU - Held, G. A.

PY - 2005/7/7

Y1 - 2005/7/7

N2 - Monodisperse magnetic nanoparticles (NPs) could enable the ultra-sensitive magnetic detection of biological analytes. However, rendering these particles biocompatible has remained a challenge. We report the biofunctionalization and detection of 12-nm manganese ferrite NPs. We have achieved the site-specific binding of biotin-functionalized NPs onto avidin-patterned silicon oxide substrates and DNA-functionalized NPs onto complementary DNA-patterned silicon oxide substrates. Utilizing scanning SQUID microscopy, we show that these substrate-bound NPs retain their magnetic properties. Finally, we demonstrate a novel method of detecting either protein binding or DNA hybridization at room temperature using the NPs and a magnetic tunnel-junction-based biosensor situated in orthogonal magnetic fields.

AB - Monodisperse magnetic nanoparticles (NPs) could enable the ultra-sensitive magnetic detection of biological analytes. However, rendering these particles biocompatible has remained a challenge. We report the biofunctionalization and detection of 12-nm manganese ferrite NPs. We have achieved the site-specific binding of biotin-functionalized NPs onto avidin-patterned silicon oxide substrates and DNA-functionalized NPs onto complementary DNA-patterned silicon oxide substrates. Utilizing scanning SQUID microscopy, we show that these substrate-bound NPs retain their magnetic properties. Finally, we demonstrate a novel method of detecting either protein binding or DNA hybridization at room temperature using the NPs and a magnetic tunnel-junction-based biosensor situated in orthogonal magnetic fields.

UR - https://www.scopus.com/pages/publications/22344450970

U2 - 10.1021/jp051098c

DO - 10.1021/jp051098c

M3 - Article

C2 - 16852617

AN - SCOPUS:22344450970

SN - 1520-6106

VL - 109

SP - 13030

EP - 13035

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 26

ER -

Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor

Abstract

Access to Document

Other files and links

Fingerprint

Cite this