General Principles for the Synthesis and Modification of Porous Materials

Schüth, Ferdi

doi:10.1002/9783527618286.ch16

Cited by 10 publications

(9 citation statements)

References 261 publications

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“…When the temperature reaches a value approximately equal to half the melting temperature of the solid in degrees Kelvin (Tamman temperature [19]), atoms can diffuse appreciably in the solid. As a result, atoms in a solid may rearrange, and the solid may change its shape.…”

Section: Thermal Treatment Buries Ce In Glass-ceramicmentioning

confidence: 99%

Preliminary Study of Using Colloidal SiO2@ZrO2 Particles in Recovering Actinides from Water and Immobilizing them in a Glass-Ceramic

Arnal

Salvia

2021

Preprint

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Actinides, which are toxic for humans, increased their presence in the hydrosphere over the last 80 years. Though actinide recovery from water and immobilization for safe storage is technically feasible, it remains a complex process. Herein, we preliminary studied SiO2@ZrO2 in recovering actinides from water and trapping them in a glass-ceramic upon thermal treatment. To simplify our experimental work, we surrogated radioactive actinides with stable cerium. In the first part of the work, we tested SiO2@ZrO2's ability to recover Ce from water in batch systems. Then, we thermally treated SiO2@ZrO2 with Ce to form a glass-ceramic. All batch experiments showed that SiO2@ZrO2 removes Ce from water. Moreover, all experiments show that SiO2@ZrO2 with Ce converts into a glass-ceramic upon thermal treatment. When heated up to 1000 °C, particles remained spherical, and Ce remained trapped within the structure of crystalline spheroids located between the outer surface and a 50 nm depth. When heated up to 1450 °C, sintering produced bigger particles than the original colloid, and Ce remained trapped within the structure of crystalline spheroids having a broad size distribution located everywhere in the particles.

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Section: Thermal Treatment Buries Ce In Glass-ceramicmentioning

confidence: 99%

Preliminary Study of Using Colloidal SiO2@ZrO2 Particles in Recovering Actinides from Water and Immobilizing them in a Glass-Ceramic

Arnal

Salvia

2021

Preprint

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“…is result was consistent with its highest conductivity (Figure 4), the content of Mn 4+ , and the smallest crystal size (Table 1) among all materials studied as it was discussed above. e literature reports that the materials with smaller crystal size exhibit better catalytic performance [38][39][40][41], which can be correlated with the increased surface area, necessary for reactions that occur mainly on the surface of the material [28,39] like in those of MB degradation.…”

Section: Catalytic Degradation Of Methylene Bluementioning

confidence: 99%

“…On the contrary, the presence of Mn 4+ , understood as the amount of surface Mn 4+ per nm of the crystal size (Table 1) as well as the stacking faults found by XRD (Figure 1), favors the electron "hopping" mechanism [1,37] and therefore the electrical conduction. Moreover, the high heating rate used in the synthesis of these materials favors the generation of structural defects and microcracks [38] that modified the electrical conduction pathways. Also, both the variation in the lamellar ordering [24] and the birnessite crystal size alter this conduction routes.…”

Section: Morphological Analysis By Scanning Electron Microscopy (Sem)mentioning

confidence: 99%

Decomposition of the Methylene Blue Dye Using Layered Manganese Oxide Materials Synthesized by Solid State Reactions

Becerra

Suárez

Arias

et al. 2018

International Journal of Chemical Engineering

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The modulation in the synthesis parameters of layered manganese oxides allowed us to produce materials with different AC conductivities. These conductivities were correlated with the catalytic performance of the materials in the decomposition of methylene blue, as a model of electron transfer reactions. The manganese oxides were prepared by thermal reduction of KMnO4 at 400°C and 800°C where one sample was heated at 1°C/min and the other was heated at 10°C/min. The materials were characterized by atomic absorption, average oxidation states of manganese, X-ray diffraction, thermogravimetric analysis, and scanning electron microscopy. The results indicate that, by increasing the synthesis temperature, both the lamellar arrangement and the crystal size increased, while the Mn4+ amount in the material decreased. Furthermore, it was observed that as the conductivity increases for the materials, the catalytic performance also increases. Therefore, a direct correlation between the conductivity and catalytic performance can be established. For example, the layered manganese oxides material synthesized at 400°C, using a heating rate of 10°C/min, showed the highest AC conductivity and had the best performance in the degradation of methylene blue. Finally, we propose a general mechanism for understanding how manganese oxides behave as catalysts that produce oxidizing species from H2O2 which degrades methylene blue. Our proposed mechanism takes into consideration the state of aggregation of the catalyst, the availability of Mn4+, and the electrical conductivity.

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“…Sol-gel merupakan salah satu metode sintesis material berpori dengan metode basah, karena pada prosesnya melibatkan larutan sebagai medianya [3]. Metode sol-gel sangat menjanjikan karena prosesnya sederhana, fleksibel, murah dan konsumsi energinya rendah [4].…”

Section: Pendahuluanunclassified

Sintesis dan Luas Permukaan Padatan Mg1-xCuxF1,985OH0,015

Jatmiko

Murwani

2017

JSSITS

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Pada penelitian ini telah dilakukan sintesis padatan Mg 1-x Cu x F 1,985 OH 0,015 (x = 0; 0,025; 0,05; 0,075; dan 0,1) dengan metode sol-gel. Padatan diukur luas permukaannya dengan adsorpsi gas N 2. Hasil pengukuran luas permukaan padatan berkisar antara 30,358 hingga 42,812 m 2 /g. Modifikasi doping logam Cu pada MgF 1,985 OH 0,015 dapat mempengaruhi luas permukaan padatan. Luas permukaan tertinggi diperoleh pada padatan Mg 0,950 Cu 0,050 F 1,985 OH 0,015 yakni sebesar 42,812 m 2 /g.

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General Principles for the Synthesis and Modification of Porous Materials

Cited by 10 publications

References 261 publications

Preliminary Study of Using Colloidal SiO2@ZrO2 Particles in Recovering Actinides from Water and Immobilizing them in a Glass-Ceramic

Preliminary Study of Using Colloidal SiO2@ZrO2 Particles in Recovering Actinides from Water and Immobilizing them in a Glass-Ceramic

Decomposition of the Methylene Blue Dye Using Layered Manganese Oxide Materials Synthesized by Solid State Reactions

Sintesis dan Luas Permukaan Padatan Mg1-xCuxF1,985OH0,015

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