Inducing ferromagnetic behaviour in Cu nanoparticles and thin films via non-stoichiometric oxidation / Armando J. Marenco, David B. Pedersen, Simon Trudel.: D68-11/080-2018E-PDF

"The unconventional magnetism of Cu nanomaterials has been studied in highly pure and surface-free nanoparticles and thin films. Gas-phase synthesis of these materials allows to study the size and surface effects independently and their capacity on inducing magnetism in Cu"--Abstract, page 2.

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Publication information
Department/Agency Canada. Defence R&D Canada.
Canada. Defence R&D Canada. Centre for Security Science.
Title Inducing ferromagnetic behaviour in Cu nanoparticles and thin films via non-stoichiometric oxidation / Armando J. Marenco, David B. Pedersen, Simon Trudel.
Series title External Literature (N) ; DRDC-RDDC-2018-N080
Publication type Series - View Master Record
Language [English]
Format Electronic
Electronic document
Note(s) "June 2018."
"Can unclassified."
"The American Chemical Society's Journal of Physical Chemistry C, J. Phys. Chem. C, 2016, 120 (13), pp 7388-7396, DOI: 10.1021/acs.jpcc.6b00699; date of publication from Ext Publisher: March 21, 2016."
Includes bibliographical references (pages 23-28).
Publishing information Kanata, ON : DRDC - Centre for Security Science, Defence Research and Development Canada, 2018.
©2018
Author / Contributor Marenco, Armando J., author.
Pedersen, David B., author.
Trudel, Simon, author.
Description 1 online resource (28, 7 pages, 2 unnumbered) : colour charts, colour illustrations.
Catalogue number
  • D68-11/080-2018E-PDF
Subject terms Military technology
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