Measuring the Work Function at a Nanobelt Tip and at a Nanoparticle Surface

The work function at the tips of individual ZnO nanobelts has been measured by an electromechanical resonant method using in-situ transmission electron microscopy. The work function of the ZnO nanobelts is ∼5.2 eV, which shows no significant dependence on the geometrical size. Using a ZnO nanobelt a...

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Published inNano letters Vol. 3; no. 8; pp. 1147 - 1150
Main Authors Bai, Xuedong, Wang, Ee Ge, Gao, Puxian, Wang, Zhong Lin
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 01.08.2003
Subjects
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Electronic transport in mesoscopic or nanoscale materials and structures
Electronic transport in multilayers, nanoscale materials and structures
Exact sciences and technology
Physics
Surface double layers, schottky barriers, and work functions
Nanoparticles
Fowler-Nordheim theory
Zinc oxides
Work functions
Inorganic compounds
Transmission electron microscopy
Microscope tips
Transition element compounds
Oscillations
Electromechanical resonance
Experimental study
Nanostructured materials
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Abstract The work function at the tips of individual ZnO nanobelts has been measured by an electromechanical resonant method using in-situ transmission electron microscopy. The work function of the ZnO nanobelts is ∼5.2 eV, which shows no significant dependence on the geometrical size. Using a ZnO nanobelt as a carrier beam, the work function of a single nanoparticle of a different material has also been measured.
AbstractList The work function at the tips of individual ZnO nanobelts has been measured by an electromechanical resonant method using in-situ transmission electron microscopy. The work function of the ZnO nanobelts is ∼5.2 eV, which shows no significant dependence on the geometrical size. Using a ZnO nanobelt as a carrier beam, the work function of a single nanoparticle of a different material has also been measured.
Author Bai, Xuedong
Gao, Puxian
Wang, Ee Ge
Wang, Zhong Lin
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Issue 8
Keywords Nanoparticles
Fowler-Nordheim theory
Zinc oxides
Work functions
Inorganic compounds
Transmission electron microscopy
Microscope tips
Transition element compounds
Oscillations
Electromechanical resonance
Experimental study
Nanostructured materials
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Snippet The work function at the tips of individual ZnO nanobelts has been measured by an electromechanical resonant method using in-situ transmission electron...
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SubjectTerms Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Electronic transport in mesoscopic or nanoscale materials and structures
Electronic transport in multilayers, nanoscale materials and structures
Exact sciences and technology
Physics
Surface double layers, schottky barriers, and work functions
Title Measuring the Work Function at a Nanobelt Tip and at a Nanoparticle Surface
URI http://dx.doi.org/10.1021/nl034342p
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