Weighing supported nanoparticles: size-selected clusters as mass standards in nanometrology.

NP Young; Zi Li; Y-F Chen; S Palomba; M Di Vece; Richard Palmer

doi:10.1103/PhysRevLett.101.246103

Weighing supported nanoparticles: size-selected clusters as mass standards in nanometrology.

NP Young, Zi Li, Y-F Chen, S Palomba, M Di Vece, Richard Palmer

Physics and Astronomy

Research output: Contribution to journal › Article

68 Citations (Scopus)

Abstract

We present a new approach to quantify the mass and 3D shape of nanoparticles on supports, using size-selected nanoclusters as mass standards in scanning transmission electron microscope. Through quantitative image intensity analysis, we show that the integrated high angle annular dark field intensities of size-selected gold clusters soft-landed on graphite display a monotonic dependence on the cluster size as far as approximately 6500 atoms. We applied this mass standard to study gold nanoparticles prepared by thermal vapor deposition and by colloidal wet chemistry, and from which we deduced the shapes of these two types of nanoparticles as expected.

Original language	English
Pages (from-to)	246103
Number of pages	1
Journal	Physical Review Letters
Volume	101
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevLett.101.246103
Publication status	Published - 12 Dec 2008

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10.1103/PhysRevLett.101.246103

Materials Program Platform Grant : Nanostructured Surfaces
Palmer, R., Guo, Q., Li, Z., Kaplan, A. & Robinson, A.
Engineering & Physical Science Research Council
1/07/07 → 31/12/11
Project: Research Councils
Structures and Stabilities of Nanoscale Bimetallic Clusters
Li, Z.
Engineering & Physical Science Research Council
7/06/06 → 6/12/09
Project: Research Councils
Localisation and Coupling of Plasmon Modes in Size-Selected Cluster Films Probed by EELS
Palmer, R.
Engineering & Physical Science Research Council
1/06/06 → 30/11/09
Project: Research Councils

Cite this

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title = "Weighing supported nanoparticles: size-selected clusters as mass standards in nanometrology.",

abstract = "We present a new approach to quantify the mass and 3D shape of nanoparticles on supports, using size-selected nanoclusters as mass standards in scanning transmission electron microscope. Through quantitative image intensity analysis, we show that the integrated high angle annular dark field intensities of size-selected gold clusters soft-landed on graphite display a monotonic dependence on the cluster size as far as approximately 6500 atoms. We applied this mass standard to study gold nanoparticles prepared by thermal vapor deposition and by colloidal wet chemistry, and from which we deduced the shapes of these two types of nanoparticles as expected.",

author = "NP Young and Zi Li and Y-F Chen and S Palomba and {Di Vece}, M and Richard Palmer",

year = "2008",

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doi = "10.1103/PhysRevLett.101.246103",

language = "English",

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AU - Young, NP

AU - Li, Zi

AU - Chen, Y-F

AU - Palomba, S

AU - Di Vece, M

AU - Palmer, Richard

PY - 2008/12/12

Y1 - 2008/12/12

N2 - We present a new approach to quantify the mass and 3D shape of nanoparticles on supports, using size-selected nanoclusters as mass standards in scanning transmission electron microscope. Through quantitative image intensity analysis, we show that the integrated high angle annular dark field intensities of size-selected gold clusters soft-landed on graphite display a monotonic dependence on the cluster size as far as approximately 6500 atoms. We applied this mass standard to study gold nanoparticles prepared by thermal vapor deposition and by colloidal wet chemistry, and from which we deduced the shapes of these two types of nanoparticles as expected.

AB - We present a new approach to quantify the mass and 3D shape of nanoparticles on supports, using size-selected nanoclusters as mass standards in scanning transmission electron microscope. Through quantitative image intensity analysis, we show that the integrated high angle annular dark field intensities of size-selected gold clusters soft-landed on graphite display a monotonic dependence on the cluster size as far as approximately 6500 atoms. We applied this mass standard to study gold nanoparticles prepared by thermal vapor deposition and by colloidal wet chemistry, and from which we deduced the shapes of these two types of nanoparticles as expected.

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DO - 10.1103/PhysRevLett.101.246103

M3 - Article

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SN - 1079-7114

VL - 101

SP - 246103

JO - Physical Review Letters

JF - Physical Review Letters

IS - 24

ER -

Weighing supported nanoparticles: size-selected clusters as mass standards in nanometrology.

Abstract

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Projects

Materials Program Platform Grant : Nanostructured Surfaces

Structures and Stabilities of Nanoscale Bimetallic Clusters

Localisation and Coupling of Plasmon Modes in Size-Selected Cluster Films Probed by EELS

Cite this