Data underlying the publication "From Structure to Function: Understanding Synthetic Conditions in Relation to Magnetic Properties of Hybrid Pd/Fe-oxide Nanoparticles"

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".

纳米颗粒（nanoparticles）的磁学性质通常由其形貌特性（如尺寸与形状）以及纳米晶（nanocrystals）的组分共同决定。而上述特性又高度取决于所采用的合成条件。此外，掺入非磁性异金属（heterometal）会对最终的磁学行为产生影响。因此，构建兼具磁学性能的多功能杂化纳米颗粒（hybrid nanoparticles），是纳米技术领域面临的一项典型挑战。本研究聚焦于钯/氧化铁杂化纳米颗粒，用于肿瘤组织的热疗/热消融治疗，其中钯拟采用放射性同位素Pd-103的形式。本数据集包含发表于《纳米材料》（Nanomaterials）特刊“磁性纳米材料与纳米结构”中的上述标题论文的原始数据与处理后数据。