Synthesis and characterization of tin(IV) phenyl phosphonate in nano form

Chitra Sumej; Beena Raveendran

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Synthesis and characterization of tin(IV) phenyl phosphonate in nano form

机译：纳米形式的苯基膦酸锡（IV）的合成与表征

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An inorgano-organic ion exchanger, Sn(IV) phenyl phosphonate, has been synthesized in amorphous form. Further, an attempt has been made to synthesize Sn(IV) phenyl phosphonate in the nano form. The materials have been characterized for elemental analysis (ICP-AES), thermal analysis (TGA), X-ray analysis and FTIR spectroscopy. Chemical resistivity of these materials has been accessed in acidic, basic and organic solvent media. Catalytic activity has been studied and compared by using esterification of ethylene glycol as a model reaction wherein glycoldiacetate has been prepared. The transport properties of these materials have been explored by measuring specific proton conduction at different temperatures using SOLARTRON DATASET impedance analyser over a frequency range 1 Hz-1 MHz. It has been observed that Sn(IV) phenyl phosphate in the nano form behaves as a better Bronsted catalyst and proton conductor as compared to the amorphous form.

机译：无机-有机离子交换剂，Sn（IV）苯基膦酸酯，已经以无定形形式合成。此外，已经尝试合成纳米形式的苯基膦酸Sn（IV）。这些材料已经过元素分析（ICP-AES），热分析（TGA），X射线分析和FTIR光谱的表征。这些材料的化学电阻率已在酸性，碱性和有机溶剂介质中获得。通过使用乙二醇的酯化反应作为模型反应来研究和比较其催化活性，其中已制备了乙二醇二乙酸酯。通过使用SOLARTRON DATASET阻抗分析仪在1 Hz-1 MHz的频率范围内测量不同温度下的特定质子传导，可以探索这些材料的传输特性。已经观察到，与无定形形式相比，纳米形式的Sn（IV）苯基磷酸酯表现出更好的布朗斯台德催化剂和质子导体。

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《Bulletin of Materials Science》 |2008年第4期|p.613-617|共5页
作者
Chitra Sumej; Beena Raveendran;
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正文语种 eng
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Amorphous material; nano material; Sn(IV) phenyl phosphonate; protonic conductor;

机译：非晶态材料;纳米材料;苯基膦酸锡（IV）;质子导体;

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1. Synthesis and characterization of tin(IV) phenyl phosphonate in nano form [J] . CHITRA SUMEJ, BEENA RAVEENDRAN Bulletin of Materials Science . 2008,第4期

机译：纳米形式的苯基膦酸锡（IV）的合成与表征
2. Synthesis and characterization of tin(IV) phenyl phosphonate in nano form [J] . Beena Raveendran, Chitra Sumej Bulletin of materials science . 2008,第4期

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Synthesis and characterization of tin(IV) phenyl phosphonate in nano form

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