Abstract: The processing of nanocrystalline yttria doped zirconia powder via dry forming routes has been
investigated via the granulation of the powder using spray freeze drying (SFD). Free-flowing and
crushable powders suitable for either die or isosatic pressing have been achieved via the combination of
SFD with additions of up to 2 vol% of Freon 11; the latter reducing the strength of the granules whilst
not affecting the powder flowability into the die. The approach has allowed relic-free green bodies of
up to 55% of theoretical density to be produced using pressures as low as 250 MPa.
Abstract: New synthesis process to prepare nano-particles of lithium niobate, sodium niobate and
potassium niobate by thermal decomposition of the constituent double metal alkoxides was
developed. Single crystals of such double-metal alkoxides as Na-Nb, Li-Nb and K-Nb ethoxides
were newly synthesized from a mixed solution of the constituent metal ethoxides. The doublemetal
alkoxides of the Li-Nb, Na-Nb and K-Nb systems decomposed at low temperatures below
673 K to form nano-particles of LiNbO3, NaNbO3 and LiNbO3. The lattice constants and crystallite
size of the obtained LiNbO3, NaNbO3 and LiNbO3 particles were elucidated. It was shown that this
new synthesis process was useful for preparation of niobate nano-particles at low temperatures.
Abstract: A modified complex sol-gel process was developed to synthesize LiMn2O4 and
LiNixCo1-xO2 powders. Sols were prepared from 1.5 M of Mn2+ or 1 M of xNi2+ and (1-x)Co2+
acetates plus ascorbic acid aqueous solutions by alkalizing them with LiOH and NH4OH. Ascorbic
acid was added to prevent precipitation in the precursor solutions. When the sols were concentrated
to one-third of their initial volume under reduced pressure and then gelled by drying for 10 days,
heat treatment to ≥700 °C was accompanied by foaming, violent self-ignition, and formation of
carbonates in the Ni-containing species. Significant improvements to the process and resulting
powders were gained by modifying the gelation step. When gelation and drying were carried out
under reduced total pressure, subsequent heating produced self-ignition, but no foaming, for all
heating rates. The resulting products were determined to be nearly phase pure and carbonate free by
thermogravimetric, differential thermal, X-ray, and infrared spectroscopy methods.
Abstract: In this study, our objective is to deposit an alumina or an aluminum nitride layer on a turbostratic carbon substrate. The coatings are synthesized via a sol-gel route followed by a heat treatment in order to obtain -alumina or hexagonal aluminum nitride by carbothermal nitridation of alumina. The synthesis of such layers on carbon substrates is not reported in literature.
Several slurries were elaborated using various solvents and catalysts, and aluminum-tri-sec-butoxide as an aluminum precursor. The coating is obtained by dropping the substrate in the sol. After drying and pyrolysis, the amorphous alumina layer obtained has a thickness ranging from 500 nm to 1 µm. The material is finally heat treated. Several treatment conditions were evaluated.
A thermodynamic study of the Al-C-O-N system will be drawn, and the composition of the synthesized sol-gel and heat treatment parameters will be detailed. Then, the layer’s morphology and structure will be characterized thanks to Scanning Electron Microscopy and X-Ray Diffraction analyses. The impact of heat treatment parameters will be discussed and experimental results will be compared to the theoretical thermodynamic results.
Abstract: Monodispersed plate-like CeO2 particles were successfully synthesized by a mild solution process followed by calcination in air at 400oC. During the solution processing, monodispersed orthorhombic single-crystal of plate-like Ce2(CO3)3.8H2O was obtained by using Ce(NO3)3.6H2O as cerium source, and NaHCO3 aqueous solution as precipitation reagent and carbon source. The concentration of NaHCO3 solution affects the morphologies and particle size of the cerium carbonate compounds. High concentration of NaHCO3 led to a decrease in the particle size of Ce2(CO3)3.8H2O effectively. The CeO2 particles synthesized by the decomposition of carbonate precursors possessed similar morphologies and slightly smaller particle size. The plate-like ceria particles possessed good UV-shielding properties and low oxidation catalytic activities, indicating the potential application as cosmetics materials
Abstract: Different valences of metal ions such as Fe3+ and Nb5+ were co-doped with nitrogen ion
into titanium dioxide by hydrothermal method using metal chlorides and hexamethylenetetramine
as the sources of metal ions and nitrogen ion, respectively. The co-doping of low-content metal ion
showed no noticeable influence on the crystalline phases and specific surface area (S.S.A.) of the
samples. Doping with Fe ion could significantly enhance the absorption in visible light region, but
doping with Nb ion showed almost no effect. The photocatalytic activities of the samples were
determined for the oxidative destruction of NO gas under various wavelengths. Co-doping with Nb
ion improved the deNOx ability, but co-doping with Fe ion depressed it, indicating that co-doping
with higher valence metal ion was effective in reducing the vacancy in the lattice which acts as the
recombination center of the photo-induced electrons and holes, and achieving higher photocatalytic
Abstract: In this work, the sol-gel technology is used to produce silica based xerogels and aerogels
suitable for insulation applications in Space. The properties of the obtained materials are tailored
varying the precursor – Methyltrimethoxysilane (MTMS) or Methyltriethoxysilane (MTES), and the
solvent – methanol or ethanol. A two-step acid-base catalyzed synthesis is used, being the obtained
gels dried at atmospheric pressure, in the case of xerogels, and in supercritical conditions, for
aerogels. Density and thermal conductivity must be made as low as possible for the sought
application and only highly porous materials can fulfill this requirement. The obtained xerogels and
aerogels, either with MTMS or MTES, show very promising properties for thermal insulation in
Space, when methanol is used as solvent. The more suitable materials are obtained with MTMS and
exhibit very low density (80-100 kg/m3), very high surface area (~ 400 m2/g) and small pore size
(~ 30-40 Å). They also show moderate flexibility and a remarkable hydrophobic character (~ 150º).
Abstract: Fabrication of advanced electronic components requires high-quality powders. In this work, nano-powders of Li or Na niobates are synthesized from (Li or Na)-Nb ethoxide by a sol-crystal method. A single crystal of (Li or Na)-Nb ethoxide is decomposed to an amorphous matrix below 473 K. Next, small crystals are grown by heating at the appropriate temperature for each specimen. The sol-crystal method provides homogeneous quality and fine grains by heating at lower temperature. Structural analysis of the powders is performed by a transmission electron microscope (TEM) and X-ray diffraction. As a result, LiNbO3 turns to dense-powders, but NaNbO3 forms nano-porous powders. In order to understand this difference, we try to observe in-situ the crystallization and grain growth processes by high-temperature TEM. We successfully observe in-situ this processing and discuss the structural change and formation mechanism of LiNbO3, comparing these features with those of NaNbO3.