用精制葵花籽油热分解法制备NaYF4:Yb3+, Tm3+纳米晶

IF 0.5 Q4 PHYSICS, APPLIED Latvian Journal of Physics and Technical Sciences Pub Date : 2023-09-29 DOI:10.2478/lpts-2023-0028
L. Smelkovs, V. Viksna, J. Teterovskis, J. Grube
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引用次数: 0

摘要

近年来,上转换发光纳米粒子因其高发射效率、易于表面功能化、具有良好的化学稳定性和光稳定性等优点,在分析化学(如金属和非金属离子的定性和定量分析)和生物医学(癌症成像、药物传递、治疗等)等领域受到了研究人员的广泛关注。特别是nayf4作为宿主材料,由于其声子能量低,从而提高了发射效率,引起了研究人员的兴趣。本研究成功地采用水热法制备了nayf4: yb3 +,Tm 3+纳米晶体。采用含油酸的精制葵花油代替分析级油酸和十八烯-1作为溶剂,降低了合成成本。通过半定量XRD测量分析,合成样品中含有25.3%的六方β- nayf4: yb3 +,Tm 3+和23.8%的立方α- nayf4纳米晶相。样品的发光特征主要表现为六方晶型纳米颗粒(nayf4: yb3 +,Tm 3+)。
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Synthesis of NaYF4:Yb3+, Tm3+ Nanocrystals Via the Thermal Decomposition Method Using Refined Sunflower Oil
Abstract In recent years, up-conversion luminescence nanoparticles have attracted significant attention from researchers in fields such as analytical chemistry (for example qualitative and quantitative analysis of metal and non-metal ions) and biomedicine (cancer imaging, drug delivery, treatment, etc.) due to their high rate of emission efficiency, easy surface functionalization, great chemical and thermal and photostability and other favorable properties. NaYF 4 in particular has attracted interest of researchers as a host material due to its low phonon energy, thus increasing the efficiency of emission. In this study, the synthesis of NaYF 4 :Yb 3+ ,Tm 3+ nanocrystals using the hydrothermal method was successfully carried out. Refined sunflower oil containing oleic acid was used as a solvent instead of analytical grade oleic acid and octadecene-1, reducing the cost of the synthesis. Using semi-quantitative XRD measurement analysis, it was determined that 25.3 % hexagonal β-NaYF 4 :Yb 3+ ,Tm 3+ as well as 23.8 % cubic α-NaYF 4 nanocrystal crystalline phases were found in the synthesized sample. The sample showed mainly luminescent characteristics typical of hexagonal NaYF 4 :Yb 3+ ,Tm 3+ lattice nanoparticles.
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来源期刊
CiteScore
1.50
自引率
16.70%
发文量
41
审稿时长
5 weeks
期刊介绍: Latvian Journal of Physics and Technical Sciences (Latvijas Fizikas un Tehnisko Zinātņu Žurnāls) publishes experimental and theoretical papers containing results not published previously and review articles. Its scope includes Energy and Power, Energy Engineering, Energy Policy and Economics, Physical Sciences, Physics and Applied Physics in Engineering, Astronomy and Spectroscopy.
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