Add to ORKGNanocrystalline (15-30 nm) and submicron-sized (500-600 nm) zirconia (ZrO2) particles are synthesized using the sol-gel technique. The metastable tetragonal phase is stabilized at room temperature within pure ZrO2 nanodomains of size 15-45 nm having nonspherical morphology. Using thermodynamic analysis, it is revealed that the critical nanosize for tetragonal phase stabilization, at room temperature, may vary depending on the contribution from the surface, interfacial, and strain energies, which determine the size and the shape of the tetragonal nanodomains
Sol-gel technique utilizing hydroxypropyl cellulose (HPC) polymer as a steric stabilizer, has been u...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...
Nanocrystalline (15-30 nm) and submicron-sized (500-600 nm) zirconia (ZrO2) particles are synthesize...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
Nanocrystalline as well as submicron-sized tetragonal-zirconia (ZrO2) particles have been successful...
Nanocrystalline as well as submicron-sized tetragonal-zirconia (ZrO2) particles have been successful...
Submicron and nano-sized nanocrystalline pure zirconia (ZrO2) powders having metastable tetragonal a...
Submicron and nano-sized nanocrystalline pure zirconia (ZrO 2) powders having metastable tetragonal ...
Mechanisms of tetragonal phase stabilisation, at room temperature, in nanocrystalline (\u3c100 nm), ...
Mechanisms of tetragonal phase stabilisation, at room temperature, in nanocrystalline (\u3c100 nm), ...
To understand the importance of the particle size on the stabilization of metastable tetragonal ZrO2...
Nanocrystalline as well as submicron sized, non-agglomerated, spherical ZrO2 particles have been suc...
Sol-gel technique utilizing hydroxypropyl cellulose (HPC) polymer as a steric stabilizer, has been u...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...
Nanocrystalline (15-30 nm) and submicron-sized (500-600 nm) zirconia (ZrO2) particles are synthesize...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
We synthesize, for the first time, using sol-gel technique and without doping any trivalent impuriti...
Nanocrystalline as well as submicron-sized tetragonal-zirconia (ZrO2) particles have been successful...
Nanocrystalline as well as submicron-sized tetragonal-zirconia (ZrO2) particles have been successful...
Submicron and nano-sized nanocrystalline pure zirconia (ZrO2) powders having metastable tetragonal a...
Submicron and nano-sized nanocrystalline pure zirconia (ZrO 2) powders having metastable tetragonal ...
Mechanisms of tetragonal phase stabilisation, at room temperature, in nanocrystalline (\u3c100 nm), ...
Mechanisms of tetragonal phase stabilisation, at room temperature, in nanocrystalline (\u3c100 nm), ...
To understand the importance of the particle size on the stabilization of metastable tetragonal ZrO2...
Nanocrystalline as well as submicron sized, non-agglomerated, spherical ZrO2 particles have been suc...
Sol-gel technique utilizing hydroxypropyl cellulose (HPC) polymer as a steric stabilizer, has been u...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...
Novel, monodispersed, spherical ZrO.sub.2 particles in the size range of approximately 10 to approxi...