SYNTHESIS OF 1D ZrO2 NANOMATERIALS FROM LOCAL ZrSiO4-BASED Zr(OH)4 PRECURSORS THROUGH A PRECURSOR-TEMPLATING METHOD
One-dimensional zirconia nanomaterial is a promising material for many applications, such as for sensors, in catalysis, and as a reinforcing element in composites. This is due to its high aspect ratio, exhibiting an active and high specific surface area and high porosity, and showing high mechani...
Saved in:
| Main Author: | |
|---|---|
| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/42694 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One-dimensional zirconia nanomaterial is a promising material for many
applications, such as for sensors, in catalysis, and as a reinforcing element in
composites. This is due to its high aspect ratio, exhibiting an active and high
specific surface area and high porosity, and showing high mechanical strength and
high fracture toughness. One-dimensional zirconia nanomaterial is hardly found
neither in a local nor international markets. However, many methods have been
developed on the synthesis of one-dimensional zirconia material. The methods used
soluble salts and organometallic compounds as the precursors and alcohol-based
solvents, required specific instruments, and needed high energy. Thus, the methods
are less economic to be applied on a large scale in Indonesia at this time.
Considering Indonesia has a large deposit of zirconium silicates and the
applications of one-dimensional zirconia nanomaterial in many industrial fields,
the study on the synthesis of one-dimensional zirconia nanomaterial from zirconium
silicates with a relative simple method is highly recommended.
In this dissertation’s work, a method on the synthesis of zirconium silicate-based
one-dimensional zirconia nanomaterials has been developed, namely a precursortemplating
method. The method basically was a synthesis method of onedimensional
zirconia nanomaterial using zirconium silicate-based zirconium
hydroxide precursors assisted by one-dimensional directing organic templates that
exhibit the hydroxyl groups (????????????????) and or the ethoxy groups (???????????? ????) and followed
by calcination. The applied one-dimensional directing templates were ethylene
glycol, poly ethylene glycol 6000, and natural polymers such as nano celluloses.
All the templates comprise of the hydroxyl groups (????????????????) and or the ethoxy groups
(???????????? ????), having ability to interact with the zirconium hydroxide precursors and to
modify the zirconia in one-dimension nanostructures. Meanwhile, the zirconium
hydroxide precursors were synthesized from zirconium silicates via a sodium
carbonate-destruction method. The method is essentially the decomposition of
zirconium silicates by sodium carbonates at a high temperature, resulting in a
water soluble sodium silicate compound and an acid soluble sodium zirconate
compound; and then followed by slow hydrolysis of the zirconium salts, giving rise
to zirconium hydroxide precursors. This study aims to synthesize one-dimensional
zirconia nanomaterials from the technical grade local zirconium silicate-based
zirconium hydroxide precursors through a precursor-templating method.
Synthesis of one-dimensional zirconia nanomaterials from the zirconium silicatebased
zirconium hydroxide precursors by a precursor-templating method consists
of two main steps, namely a) preparing zirconium hydroxide precursors from
zirconium silicates: it was started by the decomposition of zirconium silicates with
sodium carbonates at 1000 ????C, followed by leaching fired product with water and
sulfuric acid, then continued by slow hydrolysis of a zirconium salt solution at
approximately pH 9 to obtain zirconium hydroxides; and b) synthesis of onedimensional
zirconia nanomaterial from zirconium hydroxide precursors used
templates:it was begin with the precursor pH adjustment, followed by mixing the
precursors and templates under heating, continued by aging, thus resulting in gels
or solids. Then, the original precursors and the as-synthesized products were
calcined at 800????C. Both of the produced zirconia characteristics were examined,
including thermal behavior, mineralogies, functional groups, microstructures, and
textural properties.
In this dissertation’s work, one-dimensional zirconia nanomaterials were
successfully synthesized from zirconium silicate-based zirconium hydroxide
precursors assisted by the selected templates (such as ethylene glycol, poly ethylene
glycol 6000, and nano cellulose) and specific synthesis conditions, via a precursortemplating
method. The original characteristics of zirconium hydroxide-based
zirconia at 800????C include the t-metastable as a dominant phase, particle sizes less
than 50 nm, exhibiting a mesopore structure and a surface area of 46.990 m²/g.
However, the experimental results show that the usage of one-dimensional
directing templates in a precursor-templating method has modified the original
characteristics of zirconia, including mineralogies, microstructural and textural
properties. The modified zirconias consist of the t-metastable and the m-phases,
exhibit one-dimonesional structures (nanorods, nanotubes, nanocapsules, and
elongated agglomerates), and reveal surfacea areas in the range 9-48.5 m2/g.
|
|---|