کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6464527 | 1422874 | 2017 | 8 صفحه PDF | دانلود رایگان |
- Nb2O5 solid was in contact with a more diluted K2CO3 solution before ball-milling.
- This mixture was more homogeneous than that prepared by the solid-state mixing.
- Intercalated K+ ions were more present in KNb3O8 obtained from this mixture.
- The so-obtained exfoliated HNb3O8 (e-HNb3O8) contained more acid sites.
- This e-HNb3O8 showed better catalytic performance in the dehydration reactions.
Although exfoliated HNb3O8 nanosheet (e-HNb3O8) is known to be a powerful catalyst in acid-catalyzed reactions, the preparation technique has limitations in its high-yield production. We herein report the enhanced exfoliation efficiency and recovery of e-HNb3O8 by contacting Nb2O5 solid with a diluted K2CO3 solution before ball milling (mechanochemical activation). The so-obtained e-HNb3O8 showed a larger specific surface area, a higher density of total acid sites and an improved catalytic performance in the dehydration of 2-heptanol and formic acid, compared to the corresponding sample prepared by the conventional solid-state mixing. The ball-milled K2CO3-Nb2O5 mixtures, layered KNb3O8, ion-exchanged HNb3O8 and exfoliated HNb3O8 samples were characterized by PXRD, TEM-EDS, TGA-MS and SEM-EDS. The characterization results revealed more intercalated K+ ions in KNb3O8 particles as well as more homogeneous K2CO3-Nb2O5 mixture when the employed preparation technique was used. This is achieved by more infiltration of K2CO3 into Nb2O5 lattice before ball milling, thereby resulting in the above positive findings. Therefore, our approach has great potential to be extended to other niobate-containing nanosheet-type materials.
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Journal: Advanced Powder Technology - Volume 28, Issue 10, October 2017, Pages 2524-2531