A novel ethanol templating synthesis of ordered lamellar superstructured crystalline zirconia
Abstract
Soft template technique has attracted great interest, because it is a facile, inexpensive and efficient synthesis strategy for ordered superstructural systems. Here, a novel ethanol template was used to synthesize the ordered lamellar superstructured crystalline zirconia (Lα-ZrO2) without post-treatments and surfactants. ZrOCl2 and NaOH were served as Zr source and precipitant, respectively. XRD analysis showed that Lα-ZrO2 is crystalline. XPS spectra indicated the physical adsorption of ethanol molecules in Lα-ZrO2. TEM further observed and proved the 1.36-nm period of superstructure detected and calculated by SAXRD (1.35 nm), which is composed of 0.68-nm thick ZrO2 and pore alternatively. In contrast, the template-free ZrO2 (TF-ZrO2) presents no superstructure and is poorly crystallized. As a soft template, ethanol presents the roles of (i) inducing the growth of zirconia layers, (ii) directing the self-assembly of ordered lamellar superstructure, and (iii) decreasing the crystallization temperature. The possible mechanism of ethanol serving as a soft template was proposed and discussed in thermodynamics.
- Publication:
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Journal of Nanoparticle Research
- Pub Date:
- March 2012
- DOI:
- 10.1007/s11051-012-0767-y
- Bibcode:
- 2012JNR....14..767L
- Keywords:
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- Zirconia;
- Ethanol;
- Template;
- Lamellar;
- Superstructured;
- Synthesis