J
James W. M. Chon
Researcher at Swinburne University of Technology
Publications - 91
Citations - 5582
James W. M. Chon is an academic researcher from Swinburne University of Technology. The author has contributed to research in topics: Nanorod & 3D optical data storage. The author has an hindex of 25, co-authored 91 publications receiving 5192 citations. Previous affiliations of James W. M. Chon include Cooperative Research Centre.
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Calibration of rectangular atomic force microscope cantilevers
TL;DR: In this article, a method to determine the spring constant of a rectangular atomic force microscope cantilever is proposed that relies solely on the measurement of the resonant frequency and quality factor of the cantilevers in fluid (typically air), and knowledge of its plan view dimensions.
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Five-dimensional optical recording mediated by surface plasmons in gold nanorods
TL;DR: This work shows true five-dimensional optical recording by exploiting the unique properties of the longitudinal surface plasmon resonance (SPR) of gold nanorods, which exhibits an excellent wavelength and polarization sensitivity, whereas the distinct energy threshold required for the photothermal recording mechanism provides the axial selectivity.
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Experimental validation of theoretical models for the frequency response of atomic force microscope cantilever beams immersed in fluids
TL;DR: In this paper, the frequency response of a cantilever beam, that is immersed in a viscous fluid and excited by an arbitrary driving force, has been investigated and a critical assessment of the well-known inviscid model is presented.
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Below melting point photothermal reshaping of single gold nanorods driven by surface diffusion
TL;DR: This work systematically studied the photothermal reshaping behavior of gold nanorods irradiated with femtosecond laser pulses to report that the instability is driven by curvature-induced surface diffusion rather than a threshold melting process, and that the stability dramatically decreases with increasing aspect ratio.
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Acoustic Oscillations and Elastic Moduli of Single Gold Nanorods
TL;DR: Contrary to previous reports on ensembles of gold nanorods, it is found that the single particle elastic moduli agree well with bulk values.