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Literature DB >> 22645373

Electronic properties of nanoentities revealed by electrically driven rotation.

D L Fan¹, Frank Q Zhu, Xiaobin Xu, Robert C Cammarata, C L Chien.

Abstract

Direct electric measurement via small contacting pads on individual quasi-one-dimensional nanoentities, such as nanowires and carbon nanotubes, are usually required to access its electronic properties. We show in this work that 1D nanoentities in suspension can be driven to rotation by AC electric fields. The chirality of the resultantrotation unambiguously reveals whether the nanoentities are metal, semiconductor, or insulator due to the dependence of the Clausius-Mossotti factor on the material conductivity and frequency. This contactless method provides rapid and parallel identification of the electrical characteristics of 1D nanoentities.

Entities: Chemical

Mesh：

Year: 2012 PMID： 22645373 PMCID： PMC3386091 DOI： 10.1073/pnas.1200342109

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

9 in total

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Authors: Donglei Fan; Zhizhong Yin; Raymond Cheong; Frank Q Zhu; Robert C Cammarata; C L Chien; Andre Levchenko
Journal: Nat Nanotechnol Date: 2010-06-13 Impact factor: 39.213

9 in total

6 in total

Electronic properties of nanoentities revealed by electrically driven rotation.

1. Quantum conductance steps in solutions of multiwalled carbon nanotubes.

2. Aharonov-Bohm-type effect in graphene tubules: A Landauer approach.

3. Multichannel ballistic transport in multiwall carbon nanotubes.

4. Quantum conductance of carbon nanotubes with defects.

5. Magnetoconductance of carbon nanotubes.

6. Dielectric behavior of non-spherical cells in culture.

7. Carbon nanotube quantum resistors

8. Electro-orientation of ellipsoidal erythrocytes. Theory and experiment.

9. Subcellular-resolution delivery of a cytokine through precisely manipulated nanowires.

1. Tunable release of multiplex biochemicals by plasmonically active rotary nanomotors.

Review 2. Man-made rotary nanomotors: a review of recent developments.

3. Ultra-durable rotary micromotors assembled from nanoentities by electric fields.

4. Acoustofluidic Rotational Manipulation of Cells and Organisms Using Oscillating Solid Structures.

5. Rotational manipulation of single cells and organisms using acoustic waves.

6. Modeling the AC Electrokinetic Behavior of Semiconducting Spheres.