Implications of Room Temperature Oxidation on Crystal Structure and Exchange Bias Effect in Co/CoO Nanoparticles

Mikhail Feygenson, Eric V. Formo, Katherine Freeman, Natalie Schieber, Zheng Gai, Adam J. Rondinone

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

We describe here how the exchange bias effect in Co/CoO nanoparticles depends on the size focusing and temperature treatment of precursor Co nanoparticles before oxidation at ambient conditions. By appealing to magnetization, microscopy, neutron, and synchrotron X-ray measurements, we found that as-synthesized Co nanoparticles readily oxidize in air only after 20 days. The highest exchange bias field of 814 Oe is observed at T = 2 K. When the same nanoparticles are centrifuged and annealed at 70 °C under vacuum prior to oxidation, the exchange bias field is increased to 2570 Oe. Annealing of Co nanoparticles in vacuum improves their crystallinity and prevents complete oxidation, so that Co-core/CoO-shell structure is preserved even after 120 days. The crystal structure of CoO shell in both samples is different from its bulk counterpart. Implications of such distorted CoO shells on exchange bias are discussed. Coating of Co nanoparticles with amorphous silica shell makes them resistant to oxidation but ultimately modifies the crystal structure of both Co core and SiO2 shell.

Original languageEnglish
Pages (from-to)26219-26228
Number of pages10
JournalJournal of Physical Chemistry C
Volume119
Issue number46
DOIs
StatePublished - Nov 19 2015

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