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1 INTRODUCTION In recent years, ABO3-type perovskite-like manganites, RE1xDxMnO3 (RE = rare earth ions, D = Ca2+, Sr2+, Ba2+ etc.), have inspired remarkable attention due to the colossal magnetoresistance (CMR) effects for fundamental and practical consideration [1, 2]. Since A- and B-site substitution can give rise to a large number of derivant compounds, fruitful structural, magnetic and transport properties would be expected in this family. As we have known, the ideal ABO3-typ… 相似文献
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本系列文章的前五篇推导得到了用于多组分联动萃取分离流程设计的基础理论,并通过一个四组分分离流程实例介绍了该设计理论的实际应用。本文是本系列文章的最后一篇,将探讨该理论的拓展应用。所有非联动萃取多组分分离流程都可以通过适当等效变换,转换为由联动萃取流程中基本分离单元组合得到的等效流程,本文通过任意切割比例的三组分两出口分离、三组分三出口分离以及三组分联动萃取全分离等效流程等不同工艺形式实例,介绍如何通过流程的等效变换,应用本系列文章中的理论公式解决稀土工业实践中不同类型工艺流程的参数计算问题。 相似文献
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与传统流程中彼此独立的分离单元不同,联动萃取分离流程要求每一分离单元均通过横向或纵向衔接方式与其他分离单元联动运行。本系列文章之II已推导得到了无联动及出口联动(A_tA_(t-1)…A_2)/(A_(t-1)A_(t-2)…A_1)分离单元优化的基本关系式。当联动萃取流程中两个分离单元纵向衔接时,高层级分离单元提供水相/有机相料液给低层级分离单元,同时自低层级分离单元引出一个有机相/水相返回高层级分离单元作为萃取有机相/洗涤液使用,此时低层级分离单元的联动衔接位置在进料级,故可称为进料级联动。将基于对进料级联动(A_tA_(t-1)…A_2)/(A_(t-1)A_(t-2)…A_1)分离单元的萃取平衡和物料平衡分析,分别推导其料液为水相和有机相时的优化基本关系式。 相似文献
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CdS, CdS:Mn, ZnS, ZnS:Mn and ZnS:Tb nanoparticles were prepared by using carboxylic-containing copolymer, polystyrene-maleic anhydride (PSM), as template. Average particle size, 2.5 nm for CdS nanoparticles, is deduced from UV-vis absorption spectra and consistent with the observation of TEM. Characteristic emissions of the doping ions can be observed and the energy transfer from the host to the doping ions is verified. Fourier transform infrared (FTIR) spectra were studied to confirm the bonding effect of the copolymer and the metal ions. PSM hydrolyzed and chelated metal ions by its carboxylic group, and then performed as a protection layer after the formation of nanoparticles. 相似文献
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掺铬铝酸钇红色颜料的合成、结构和性能表征 总被引:6,自引:0,他引:6
研究了高温固相合成制备掺铬铝酸钇红色颜料的方法,着重考察了灼烧温度(1000-1400℃)、灼烧时间(1-2h)、主要原料配比(Al/Y:1:0.5—1:1.5,Cr2O3%:0.3%-5%)等实验条件对产物结构和色泽的影响。XRD等方法对样品进行的相态分析表明,主相为铝酸钇石榴石相;运用反射光谱对红色颜料的色泽进行了反射峰位和相关强度的表征。当Y2O3:Al2O3摩尔比为1:1,掺杂3%的Cr2O3作显色剂,在少量矿化剂存在时,在1300℃下灼烧1 h,得到了色坐标为x=0.577,Y=0.401的红色陶瓷颜料。 相似文献