摻雜型超順磁性氧化鐵納米簇的微波輔助制備及體外表征(英文)
發(fā)布時間:2021-09-04 08:52
為了獲得具有高飽和磁化強度的超順磁性納米材料,本研究成功通過微波輔助溶劑熱法制備出錳摻雜和鋅摻雜的超順磁性氧化鐵納米簇(Mn-doped or Zn-doped ferrite nanoclusters, Mn-FNs or Zn-FNs),并利用透射電子顯微鏡(transmission electron microscopy, TEM)和動態(tài)光散射(dynamic light scattering, DLS)粒度儀對兩者進行了初步的形態(tài)觀察和粒徑測定。之后,選擇形態(tài)和分散性更好的Zn-FNs,進一步采用X射線衍射儀(X-ray diffractometer, XRD)、電感耦合等離子體質譜儀(inductively coupled plasma-mass spectrometry, ICP-MS)和振動樣品磁強計(vibrating sample magnetometer,VSM)分別對其晶體結構、金屬含量和磁學性質進行了體外表征。結果表明, Zn-FNs是由多個納米粒子組裝形成的團簇結構,形態(tài)圓整,分散性良好,粒徑較均一,鋅成功摻雜進入Zn-FNs中,晶體具有尖晶石結構,磁學性質優(yōu)...
【文章來源】:Journal of Chinese Pharmaceutical Sciences. 2020,29(03)CSCD
【文章頁數(shù)】:8 頁
【文章目錄】:
1. Introduction
2. Materials and methods
2.1. Materials
2.2. Preparation of Mn-FNs and Zn-FNs
2.3. Morphology
2.4. Size distribution
2.5. X-ray power diffraction
2.6. Metal content analysis
2.7. Magnetic properties
3. Results and discussion
3.1. Preparation of Mn-FNs and Zn-FNs
3.2. Morphology
3.3. Size distribution
3.4. X-ray power diffraction
3.5. Metal content analysis
3.6. Magnetic properties
4. Conclusions
本文編號:3382960
【文章來源】:Journal of Chinese Pharmaceutical Sciences. 2020,29(03)CSCD
【文章頁數(shù)】:8 頁
【文章目錄】:
1. Introduction
2. Materials and methods
2.1. Materials
2.2. Preparation of Mn-FNs and Zn-FNs
2.3. Morphology
2.4. Size distribution
2.5. X-ray power diffraction
2.6. Metal content analysis
2.7. Magnetic properties
3. Results and discussion
3.1. Preparation of Mn-FNs and Zn-FNs
3.2. Morphology
3.3. Size distribution
3.4. X-ray power diffraction
3.5. Metal content analysis
3.6. Magnetic properties
4. Conclusions
本文編號:3382960
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