MARC21

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007	cr \|n\|\|\|\|\|\|\|\|\|
008	191016t20182018oncda obt f000 0 eng d
040	\|aCaOODSP\|beng\|erda\|cCaOODSP
043	\|an-cn---
086	1 \|aD68-11/080-2018E-PDF
100	1 \|aMarenco, Armando J., \|eauthor.
245	10\|aInducing ferromagnetic behaviour in Cu nanoparticles and thin films via non-stoichiometric oxidation / \|cArmando J. Marenco, David B. Pedersen, Simon Trudel.
264	1\|aKanata, ON : \|bDRDC - Centre for Security Science, Defence Research and Development Canada, \|c2018.
264	4\|c©2018
300	\|a1 online resource (28, 7 pages, 2 unnumbered) : \|bcolour charts, colour illustrations.
336	\|atext\|btxt\|2rdacontent
337	\|acomputer\|bc\|2rdamedia
338	\|aonline resource\|bcr\|2rdacarrier
490	1 \|aExternal Literature (N) ; \|vDRDC-RDDC-2018-N080
500	\|a"June 2018."
500	\|a"Can unclassified."
500	\|a"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."
504	\|aIncludes bibliographical references (pages 23-28).
520	3 \|a"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.
692	07\|2gccst\|aMilitary technology
700	1 \|aPedersen, David B., \|eauthor.
700	1 \|aTrudel, Simon, \|eauthor.
710	1 \|aCanada. \|bDefence R&D Canada.
710	1 \|aCanada. \|bDefence R&D Canada. \|bCentre for Security Science.
830	#0\|aExternal literature (N) (Defence R&D Canada)\|vDRDC-RDDC-2018-N080.\|w(CaOODSP)9.858173
856	40\|qPDF\|s1.42 MB\|uhttps://publications.gc.ca/collections/collection_2019/rddc-drdc/D68-11-080-2018-eng.pdf