Synthesis, crystal-structure refinement and properties of bastnaesite-type PrF[CO3], SmF[CO3] and EuF[CO3]

IF 0.9 4区 材料科学 Q3 CRYSTALLOGRAPHY Zeitschrift Fur Kristallographie-Crystalline Materials Pub Date : 2022-01-13 DOI:10.1515/zkri-2021-2068
C. Buyer, Samira A. Schumacher, T. Schleid
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Abstract

Abstract By adding a hot aqueous solution containing KF and K2[CO3] to another hot aquatic brine of Pr[NO3]3 ⋅ 5 H2O, Sm[NO3]3 ⋅ 5 H2O or Eu[NO3]3 ⋅ 5 H2O with a 1.3 times excess of the anion-providing solution, amorphous water-insoluble powders of PrF[CO3], SmF[CO3] and EuF[CO3] can be obtained. Through hydrothermal treatment at 210 °C for five days crystalline powders could be synthesized and their crystal structure was refined with Rietveld methods based on PXRD data. The named compounds crystallize in the bastnaesite-type structure with a = 710.912(12) pm, c = 976.811(6) pm for the praseodymium, a = 704.77(2) pm, c = 971.83(4) pm for the samarium and a = 700.734(6) pm, c = 969.066(8) pm for the europium compound, all hexagonal with Z = 6. Upon heating them, the compounds lose CO2 and fluoride oxides REFO emerge. Thermogravimetric experiments with crystalline samples show thermal stability up to 420 °C for PrF[CO3], 400 °C for SmF[CO3] and 340 °C for EuF[CO3], but decomposition below 200 °C for the amorphous ones. Infrared spectroscopy confirms only marginal portions of [OH]− instead of F− anions in all cases. The RE 3+ cations are coordinated by 9 + 2 anions at distances between 236 and 254 pm plus 326 pm to F− anions and oxygen atoms bonded to carbon as oxocarbonate anions [CO3]2−. Triggered by ultraviolet radiation, the bulk sample of EuF[CO3] shows a poor red luminescence.
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氟碳铈矿型PrF[CO3]、SmF[CO3]和EuF[CO3]的合成、晶体结构细化和性能研究
摘要:将含有KF和K2[CO3]的热水溶液加入到Pr[NO3]3⋅5 H2O、Sm[NO3]3⋅5 H2O或Eu[NO3]3⋅5 H2O的热水卤水中,并添加超过阴离子提供溶液1.3倍的量,可得到PrF[CO3]、SmF[CO3]和EuF[CO3]的非晶态水不溶性粉末。经210℃水热处理5 d可合成结晶粉末,并根据PXRD数据用Rietveld方法对其晶体结构进行细化。所命名的化合物结晶为巴斯氏体型结构,其中镨为a = 710.912(12) pm, c = 976.811(6) pm,钐为a = 704.77(2) pm, c = 971.83(4) pm,铕为a = 700.734(6) pm, c = 969.066(8) pm,均为六边形,Z = 6。加热后,这些化合物会失去二氧化碳,并产生氟化物氧化物。结晶样品的热重实验表明,PrF[CO3]的热稳定性可达420°C, SmF[CO3]的热稳定性可达400°C, EuF[CO3]的热稳定性可达340°C,而非晶样品的热稳定性低于200°C。红外光谱只证实了[OH]−的边缘部分,而不是所有情况下的F−阴离子。re3 +阳离子在236 ~ 254 pm之间由9 + 2阴离子配位,326 pm与F -阴离子配位,氧原子以氧碳酸盐阴离子[CO3]2 -与碳键合。在紫外线照射下,EuF[CO3]的大块样品显示出较差的红色发光。
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来源期刊
CiteScore
2.00
自引率
16.70%
发文量
55
期刊介绍: Zeitschrift für Kristallographie – Crystalline Materials was founded in 1877 by Paul von Groth and is today one of the world’s oldest scientific journals. It offers a place for researchers to present results of their theoretical experimental crystallographic studies. The journal presents significant results on structures and on properties of organic/inorganic substances with crystalline character, periodically ordered, modulated or quasicrystalline on static and dynamic phenomena applying the various methods of diffraction, spectroscopy and microscopy.
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