1.

MAKOVEC, Darko, DROFENIK, Mihael. "Synthesis of plate-like spinel particles and spinel-hexaferrite intergrowth nanocomposite particles etc.

In thic article the synthesiis of the Ba-hexaferrite crystals is showen and the study of the synthesis of nanocomposites with a controled crystal structure is showen.

COBISS.SI-ID: 21876007

2.

V Uskoković, et.al.,"Preparation of silica-coated lanthanum-strontium manganite particles with designable Curie point,.....

We prepared among the first the lanthanum manganates nanoparticles protected with a thin biocompatible layer of silica with a Curie temperature at 43 oC, with auto regulation of the heating temperature during treating in an alternating high frequency magnetic field, for the application in the hyperthermia.

COBISS.SI-ID: 19848487

3.

I. Pribošič, et.al., “Formation of nanoneedles and nanoplatelets of KNbO3 perovskite during templated crystallization of the precursor gel”

In the article we explained the mechanisms leading to the formation of highly-anisotropic nanocrystallites (nanoneedles and nanoplatelets) of ferroelectric KNbO3 during the calcination of the metal-organic precursor synthesized by sol-gel method. KNbO3 displays cubic structure at the temperature of its formation.

COBISS.SI-ID: 19536935

4.

LISJAK, Darja, DROFENIK, Mihael. "The mechanism of the low-temperature formation of barium hexaferrite"

The article published in a leading ceramics journal presents the low-temperature synthesis of hexaferrites together with its mechanism. This is a contribution to the understanding of the hexaferrite formation and to the development of the simple synthesis that can be upscaled for large production.

COBISS.SI-ID: 20956711

5.

DROFENIK, Mihael, et.al., "Hydrothermal synthesis of Ba-hexaferrite nanoparticles".

Published in one of the leading ceramic journals. In the paper the mechanism of the hydrothermal synthesisi of particles with the nerrow grain size distribution is reported.

COBISS.SI-ID: 20843303