Impregnation of Fe&lt;sup&gt;3+&lt;/sup&gt; into MCM-41 Pores: Effect of Fe&lt;sup&gt;3+&lt;/sup&gt; Concentration on the Weight Percent of Fe-Frameworks and Fe-Non-Frameworks

Suyanta, Suyanta; Kuncaka, Agus; Mudasir, Mudasir

doi:10.22146/ijc.79468

Indones. J. Chem.

2023

DOI: 10.22146/ijc.79468

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Impregnation of Fe<sup>3+</sup> into MCM-41 Pores: Effect of Fe<sup>3+</sup> Concentration on the Weight Percent of Fe-Frameworks and Fe-Non-Frameworks

Suyanta Suyanta,

Agus Kuncaka,

Mudasir Mudasir

Abstract: Silica from rice husks (RH) has been used as a starting ingredient in the sonication synthesis of MCM-41 (RH-MCM-41). The impregnation of Fe3+ into RH-MCM-41 pores to produce RH-MCM-41 containing Fe2O3 and Fe (denoted as Fe2O3-Fe-RH-MCM-41) was carried out by examining the effect of various Fe3+ concentrations on the weight percent of Fe-frameworks (Fe3+ that replaces Si4+ in silicate frameworks) and Fe-non-frameworks, i.e., the iron oxide formed outside the silicate frameworks. Fe2O3-Fe-RH-MCM-41 was washed w… Show more

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Oxidative degradation of chitosan by Fe-MCM-41 heterogeneous Fenton-like system

Zhang,

Dong,

Huang

2024

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We herein disclosed an efficient multiphase Fenton-like catalytic system for oxidative degradation of chitosan. By utilizing Fe-MCM-41, featured with regular mesoporous structure and high specific surface area, the activation efficiency of H 2 O 2 was significantly enhanced and the chitosan degradation efficiency proved by 28.1% higher than the conventional system using H 2 O 2 alone. Under optimized conditions (5 g/L chitosan, 0.5 g/L Fe-MCM-41, 0.16 mol/L CH 3 COOH, 0.86 mol/L H 2 O 2 , 50 °C, 140 min), the viscosity reduction rate of chitosan reached an impressive 98.2%. Among the catalysts tested, Fe-MCM-41 with a loading factor of x = 0.12 demonstrated optimal degradation performance. After four recycles, the degradation efficiency maintained > 93.6%, demonstrating its excellent stability and recyclability for potential industrial applications. Kinetic studies provided further elucidation of the reaction mechanism, which indicated that the degradation process of chitosan followed a first-order kinetic model, with an apparent activation energy (E a ) of 48.91 kJ/mol. This novel and efficient strategy for chitosan degradation, addressed the challenges of catalyst recovery and secondary pollution typically associated with traditional Fenton systems, and posed broad application potential for polysaccharide material processing.

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Oxidative degradation of chitosan by Fe-MCM-41 heterogeneous Fenton-like system

Zhang,

Dong,

Huang

2024

Sci Rep

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Impregnation of Fe<sup>3+</sup> into MCM-41 Pores: Effect of Fe<sup>3+</sup> Concentration on the Weight Percent of Fe-Frameworks and Fe-Non-Frameworks

Cited by 1 publication

References 55 publications

Oxidative degradation of chitosan by Fe-MCM-41 heterogeneous Fenton-like system

Oxidative degradation of chitosan by Fe-MCM-41 heterogeneous Fenton-like system

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