新型磷酸锆-结晶磷酸铈/聚苯胺、聚吲哚、聚咔唑、聚苯胺-共聚吲哚、聚苯胺-共聚咔唑复合材料的合成与表征

S. Shakshooki, F. A. El-Akari, N. A. Abozaid
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引用次数: 0

摘要

制备了型磷酸锆-Zr(HPO4)2- 1.77H2O (-ZrP)、结晶型磷酸铈Ce(HPO4)2.1.33 H2O (CePc)和[-Zr(HPO4)2]0.30 [Ce (HPO4)2]0.70 .2H2O复合材料,并用化学、XRD、TGA、FT-IR和扫描电镜(SEM)对其进行了表征。通过还原无机基体中存在的部分Ce(IV)离子,分别对苯胺、吲哚、咔唑单体和苯胺-吲哚、苯胺-咔唑共单体(摩尔比为1:1)进行原位化学氧化,制备了[- zr (HPO4)2]0.30[Ce(HPO4)2]0.70/聚苯胺、聚吲哚、聚咔唑共单体[- zr (HPO4)2]0.30[Ce(HPO4)2]0.70/聚苯胺、聚吲哚、聚苯胺-共聚咔唑复合材料。一种可能的解释是部分CePc被单体攻击,而共单体分别转化为正磷酸铈(CePO4)。通过元素(C,H,N)分析、红外光谱(FT-IR)和扫描电镜(SEM)对复合材料进行了表征。元素(C、H、N)分析表明,[-Zr(HPO4)2]0.30 [Ce (HPO4)2]0.70/聚苯胺、聚吲哚、聚咔唑复合材料中有机物质的含量分别为(23.44%、5.24%和33.02%)。共聚物的质量分数分别为(Pani 5.92, PIn 7.48%)和(Pani 1.42, PCz 2.48%),可作为新型的导电无机-有机复合材料、离子交换剂、固体酸催化剂和传感器。
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Synthesis and Characterization of Novel -Type Zirconium Phosphate-Crystalline Cerium Phosphate/ Polyaniline, Polyindole, Polycarbazole, Polyaniline-co-Polyindole, and Polyaniline-co-Polycarbazole Composites
-Type zirconium phosphate,-Zr(HPO4)2-.1.77H2O (-ZrP), crystalline cerium phosphate, Ce(HPO4)2.1.33 H2O (CePc), and [-Zr(HPO4)2]0.30 [Ce (HPO4)2]0.70 .2H2O composite were prepared and characterized by chemical, XRD, TGA, FT-IR and scanning electron microscopy(SEM). [-Zr(HPO4)2]0.30[Ce(HPO4)2]0.70/polyaniline, polyindole, polycarbazole, polyaniline-co-polyindole, polyaniline-co-polycarbazole composites were prepared via in-situ chemical oxidation of the monomers aniline, indole , carbazole, and (1:1moler ratio) of co-monomers aniline-indole, aniline- carbazole, respectively, that was promoted by the reduction of part of Ce(IV) ions present in the inorganic matrix. A possible explanation is part of CePc is attacked by the monomers, and the co-monomers, respectively, converted to cerium (III) orthophosphate (CePO4). The resultant novel composites were characterized by elemental (C,H,N) analysis, FT-IR, and (SEM). From elemental (C,H,N) analysis ,the amount of organic materials present in [-Zr(HPO4)2]0.30 [Ce (HPO4)2]0.70/ polyaniline, polyindole, polycarbazole composites were (23.44, 5.24 and 33.02 % in wt. ), respectively. The amount of resultant copolymers were (Pani 5.92, PIn 7.48 % in wt) and (Pani 1.42, PCz 2.48 % in wt ) These composites can be considered as novel conducting inorganic-organic composites, ion exchangers , solid acid catalysts and sensors.
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