DyPO4·1.5H2O Microcrystals: Microwave/Ultrasound/ Ultraviolet Light- Assisted Synthesis, Characterization and Formation Mechanism

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY Current Microwave Chemistry Pub Date : 2020-07-01 DOI:10.2174/2213335607666200701214200
Mengmeng Li, Shuang Huang, Han Zhang, Lei Wang, Shengliang Zhong
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Abstract

Researchers have pursued the new synthesis method. As a newly developed method, microwave (MW), ultrasound (US) and ultraviolet light (UV) assisted synthesis has drawn increasing interests. Under the synergistic effect, many materials with new structure, morphology and properties may be found. As an important rare-earth phosphate, DyPO4 was selected and the effect of MW, US and UV on the preparation was investigated. The DyPO4·1.5H2O nanostructures were prepared by MW, US, UV and their combination. Hexagonal DyPO4·1.5H2O microcrystals obtained under MW irradiation were broomstick bundles. Needle-shaped products were formed in the presence of MW and US. Interestingly, the broom-sheaf-like structures can self-assemble into flower-shaped structures upon the irradiation of MW and UV. Whereas, MW/UV/US synergetic heating results in mixed morphologies of flower-like and needle-shaped structures. The growth of DyPO4 nanostructures can be tuned by selecting the combination of heating method of MW, US and UV.
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DyPO4·1.5H2O微晶:微波/超声/紫外光辅助合成、表征及形成机理
研究人员一直在探索这种新的合成方法。微波(MW)、超声波(US)和紫外光(UV)辅助合成作为一种新兴的合成方法,越来越受到人们的关注。在协同作用下,可以发现许多具有新结构、新形态和新性能的材料。选择了一种重要的稀土磷酸盐DyPO4,考察了微波、超声和紫外对其制备的影响。采用微波、超声、紫外光谱及其组合方法制备了DyPO4·1.5H2O纳米结构。在微波辐照下获得的六方晶系DyPO4·1.5H2O微晶为扫帚状晶束。在MW和US存在下形成针状产物。有趣的是,在MW和UV的照射下,房间鞘状结构可以自组装成花状结构。然而,MW/UV/US协同加热导致花朵状和针状结构的混合形态。DyPO4纳米结构的生长可以通过选择MW、US和UV加热方法的组合来调节。
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Current Microwave Chemistry
Current Microwave Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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