這篇論文分成二個部分。第一個部分著重於奈米銅的磁性表現及特徵。第二個部分則著重於Na-Co-Fe類普魯士藍的物理性質與應用 在第一個部分,我們採用物理氣相沉積法來製備三種型態的奈米銅粒子,然後使用X光繞射技術來鑑定之。我們確定這些奈米粒子的平均直徑大約落在6.6nm到11.1nm之間。在磁化率量測中也指出不同尺寸的奈米銅粒子有不同的磁性特性。而塊材銅和奈米銅的電子雲分布差異也十分重要的表現在不同尺寸下的奈米銅粒子的等溫磁化率曲線中的類鐵磁性特徵中。 於第二個部分中,我們使用共沉澱法來合成Na-Co-Fe類普魯士藍。為了合成晶體結構的樣品,我們採用了加熱法以及將NaCl加入製成中來輔助合成。我們使用X光繞射技術以及X光光電子能譜法來鑑定樣品。關於這三個樣品的物理性質分析中,我們測量了這三個樣品的磁性特性以及拉曼光譜。此外,我們將這三個樣品使用在二次電池的正極中。 ;There are two parts in this thesis. The first part focuses on the studies made on the magnetic behavior of bare Cu nanoparticles. The second part focuses on the physical properties and applications of Na-Co-Fe Prussian blue analogues. In the first part, a gas condensation method is employed to fabricate three sets of bare Cu nanoparticles. X-ray diffraction is used to characterize the samples. We determine the mean particle diameters of Cu nanoparticles are determined in range of 6.6 nm to 11.1 nm. Magnetization measurements were pointed out the changes in magnetic properties of Cu nanoparticles with various sizes. The differences in the electron density distributions between bulk and nano-sized Cu are important to understand the observations of ferromagnetic-like development in isothermal magnetization curves of Cu nanoparticles with various sizes. In the second part of this thesis, a coprecipitation method is used to synthesize the Na-Co-Fe Prussian Blue Analogues (PBAs). In order to synthesize samples with different crystalline structures, both the heat treatment and sodium citrate assisted procedures are introduced into sample preparation procedure. Sample characterizations of three different Na-Co-Fe samples are examined by X-ray photoemission spectroscopy and X-Ray diffraction techniques. Moreover, physical properties of these Na-Co-Fe PBAs are investigated by magnetic measurements as well Raman spectroscopy. Furthermore, obtained three frameworks were introduced as the cathode for a secondary battery