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Cu-2(OH)PO4 pretreated by composite surfactants for the micro-domino effect: A high-efficiency Fenton catalyst for the total oxidation of dyes

论文题目:

Cu-2(OH)PO4 pretreated by composite surfactants for the micro-domino effect: A high-efficiency Fenton catalyst for the total oxidation of dyes

英文论文题目:

Cu-2(OH)PO4 pretreated by composite surfactants for the micro-domino effect: A high-efficiency Fenton catalyst for the total oxidation of dyes

第一作者:

韩剑

英文第一作者:

Han, J.

联系作者:

于洪文

英文联系作者:

Yu, H. W.

发表年度:

2015

:

166

页码:

71-74

摘要:

A pretreated surfactant-assisted method is developed to fabricate a series of Cu-2(OH)PO4 catalysts used in the degradation of methylene blue (MB) through Fenton-like reactions. The sodium dodecyl benzene sulfonate (SDBS) @ polyvinyl pyrrolidone (PVP) pretreated Cu-2(OH)PO4 (S@P-Cu-2(OH)PO4) catalyst significantly enhances the catalytic activity, and 85% of MB is degraded within 4 h. The enhancement of catalytic activity is attributed to the catalyst's small size, large specific surface area, and surface ravine features. The outstanding catalytic efficiency results from the chelating action (SDBS) and dispersion effect (PVP) on copper ions. The micro-domino effect of composite surfactants decreases the size of the catalyst in the process of crystallization.

英文摘要:

A pretreated surfactant-assisted method is developed to fabricate a series of Cu-2(OH)PO4 catalysts used in the degradation of methylene blue (MB) through Fenton-like reactions. The sodium dodecyl benzene sulfonate (SDBS) @ polyvinyl pyrrolidone (PVP) pretreated Cu-2(OH)PO4 (S@P-Cu-2(OH)PO4) catalyst significantly enhances the catalytic activity, and 85% of MB is degraded within 4 h. The enhancement of catalytic activity is attributed to the catalyst's small size, large specific surface area, and surface ravine features. The outstanding catalytic efficiency results from the chelating action (SDBS) and dispersion effect (PVP) on copper ions. The micro-domino effect of composite surfactants decreases the size of the catalyst in the process of crystallization.

刊物名称:

Materials Letters

英文刊物名称:

Materials Letters

英文参与作者:

Li, H. Y.; Xu, X. J.; Yuan, L. Z.; Wang, N. N.; Yu, H. W.