Benjamin Podmiljsak scite author profile

Benjamin Podmiljsak

4Publications

56Citation Statements Received

87Citation Statements Given

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Affiliations

Jožef Stefan Institute, University of Ljubljana, Centre of Excellence NAMASTE

Publications

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Novel Ba-hexaferrite structural variations stabilized on the nanoscale as building blocks for epitaxial bi-magnetic hard/soft sandwiched maghemite/hexaferrite/maghemite nanoplatelets with out-of-plane easy axis and enhanced magnetization

et al. 2017

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Atomic-resolution scanning-transmission electron microscopy showed that barium hexaferrite (BHF) nanoplatelets display a distinct structure, which represents a novel structural variation of hexaferrites stabilized on the nanoscale. The structure can be presented in terms of two alternating structural blocks stacked across the nanoplatelet: a hexagonal (BaFeO) R block and a cubic (FeO) spinel S block. The structure of the BHF nanoplatelets comprises only two, or rarely three, R blocks and always terminates at the basal surfaces with the full S blocks. The structure of a vast majority of the nanoplatelets can be described with a SR*S*RS stacking order, corresponding to a BaFeO composition. The nanoplatelets display a large, uniaxial magnetic anisotropy with the easy axis perpendicular to the platelet, which is a crucial property enabling different novel applications based on aligning the nanoplatelets with applied magnetic fields. However, the BHF nanoplatelets exhibit a modest saturation magnetization, M, of just over 30 emu g. Given the cubic S block termination of the platelets, layers of maghemite, γ-FeO, (M), with a cubic spinel structure, can be easily grown epitaxially on the surfaces of the platelets, forming a sandwiched M/BHF/M platelet structure. The exchange-coupled composite nanoplatelets exhibit a remarkably uniform structure, with an enhanced M of more than 50 emu g while essentially maintaining the out-of-plane easy axis. The enhanced M could pave the way for their use in diverse platelet-based magnetic applications.

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Magnetocaloric Properties in the Gd$_{5}$(Si$_{2}$Ge$_{2}$)$_{1-{\rm z}}$Fe$_{\rm z}({\rm Z}=0-0.75)$ System and the Magnetic Properties of the Newly Formed Gd$_{5}$(Si,Ge)$_{3}$ Phase

et al. 2009

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Influence of Ni on the magnetocaloric effect in Nanoperm-type soft-magnetic amorphous alloys

Podmiljsak

Kim

McGuiness

et al. 2014

Journal of Alloys and Compounds

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Magnetic and optical properties of single 4fn and mixed 4fn−15d electronic configurations of trivalent rare earth ions in wide band gap dielectric crystals

Sarantopoulou

Kobe

Kollia

et al. 2003

Journal of Magnetism and Magnetic Materials

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