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Alison M. Funston
Researcher at Monash University, Clayton campus
Publications - 83
Citations - 6802
Alison M. Funston is an academic researcher from Monash University, Clayton campus. The author has contributed to research in topics: Plasmon & Surface plasmon. The author has an hindex of 32, co-authored 72 publications receiving 6201 citations. Previous affiliations of Alison M. Funston include University of Melbourne & Brookhaven National Laboratory.
Papers
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Coupling modes of gold trimer superstructures
TL;DR: In this paper, an experimental and theoretical examination of the coupling modes within superstructures of gold nanorod trimers is presented, and the modes are elucidated using an electrostatic eigenmode method based on the coupling of evanescent electric fields.
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Synthesis of Stable Peptide Nucleic Acid‐Modified Gold Nanoparticles and their Assembly onto Gold Surfaces
Philipp Anstaett,Yuanhui Zheng,Yuanhui Zheng,Thibaut Thai,Thibaut Thai,Alison M. Funston,Udo Bach,Udo Bach,Udo Bach,Gilles Gasser +9 more
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The Performance‐Determining Role of Lewis Bases in Dye‐Sensitized Solar Cells Employing Copper‐Bisphenanthroline Redox Mediators
Sebastian O. Fürer,Rebecca A. Milhuisen,Muhammad K. Kashif,Muhammad K. Kashif,Sonia R. Raga,Shravan S. Acharya,Craig M. Forsyth,Maning Liu,Laszlo Frazer,Noel W. Duffy,C. André Ohlin,Alison M. Funston,Yasuhiro Tachibana,Udo Bach,Udo Bach +14 more
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The evolution of size, shape, and surface morphology of gold nanorods
Wenming Tong,Hadas Katz-Boon,Michael J. Walsh,Matthew Weyland,Joanne Etheridge,Alison M. Funston +5 more
TL;DR: In this article, the authors investigate the transformation of single crystal gold nanorod surface morphology over extended growth times, showing that the surface morphology transitions from faceted to curved, consistent with the primary control of the AgNO3 over aspect ratio occurring at the symmetry breaking point.
Journal ArticleDOI
Aligned Linear Arrays of Crystalline Nanoparticles
Alison M. Funston,Daniel E. Gómez,Daniel E. Gómez,Matthias Karg,Kristy C. Vernon,Timothy J. Davis,Timothy J. Davis,Paul Mulvaney +7 more
TL;DR: The method is fast and produces precise, well-defined, coupled plasmonic arrays with optical properties that match well to theory.