%0 Generic %A Maier, Alexandra %A van Oossanen, Rogier %A C. van Rhoon, Gerard %A Pignol, Jean-Philippe %A Dugulan, Iulian %A Denkova, Antonia %A Djanashvili, Kristina %D 2022 %T Data underlying the publication "From Structure to Function: Understanding Synthetic Conditions in Relation to Magnetic Properties of Hybrid Pd/Fe-oxide Nanoparticles" %U https://data.4tu.nl/articles/dataset/Data_underlying_the_publication_From_Structure_to_Function_Understanding_Synthetic_Conditions_in_Relation_to_Magnetic_Properties_of_Hybrid_Pd_Fe-oxide_Nanoparticles_/21062629/1 %R 10.4121/21062629.v1 %K Hybrid Nanoparticles %K Iron Oxide %K Palladium %K Thermal Decomposition %K Magnetization %K Supermaragnetism %K Hyperthermia %K Heating Power %X
Magnetic properties of nanoparticles are generally determined by their morphological charteristics, such as size/shape, as well asl composition of the nanocrystals. These in turn are highly dependent on the synthetic conditions applied. Additionally, incorporation of a non-magnetic heterometal influences the final magnetic behavior. Therefroe, contsruction of multyfunctional hybrid nanoparticles, with preserved magnetic properties represents a certain nanotechnological challenge. In our work, we focus of palladium/iron oxide hydrid nanoparticles for hyperthermia/thermal ablation treatment of tumor tissues, with palladium being eventually envisioned in its radioactive form Pd-103. This dataset contains the row and processed data of the publication with the above-mentioned title, published in a Special Issue of Nanomaterials: "Magnetic Nanomaterials and Nanostructures".
%I 4TU.ResearchData