Add to ORKGWe rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow anisotropically (without templates) to form nanoparticles, rods, and cubes. In particular, single-crystalline and monodispersed cubic CeO2 nanoparticles, nanorods, and nanocubes have been selectively synthesized by a very simple, efficient, and economical hydrothermal process using different NaOH concentrations, and Ce(NO3)(3) as the cerium precursor. High-resolution transmission electron microscopy reveals nanomaterials with differently exposed crystal planes: {111} and {100} for nanoparticles, {110} and {100} for nanorods, and {100} for nanocubes. During the preparation of the CeO2 nanomaterials, the formation of intermediate anisotropic Ce(OH)(...
Here, the trustworthy work has been completed for the hydrothermal and co-precipitation methods of s...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
The morphologies of ceria nanocrystals play an essential role in determining their redox and catalyt...
Single-crystalline and uniform nanopolyhedra, nanorods, and nanocubes of cubic CeO2 were selectively...
In this research, high resolution transmission electron microscopy (HRTEM) and high angle annular da...
Ceria (CeO2) plays a vital role in emerging technologies for environmental and energy-related applic...
Ceria (CeO2) plays a vital role in emerging technologies for environmental and energy-related applic...
Cerium oxide (CeO2) or ceria has been shown to be an interesting support material for noble metals i...
It is of significant importance for the applications to controllably and facilely synthesize ceria w...
none5Cerium oxide with spheric, flowerlike and needle-like shapes has been synthesized by a simple ...
Controllable preparation of ceria nanotube was realized by hydrothermal treatment of Ce(OH)CO3 precu...
Here, the trustworthy work has been completed for the hydrothermal and co-precipitation methods of s...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
We rationalize how fluorite-structured CeO2, which is crystallographically isotropic, can grow aniso...
The morphologies of ceria nanocrystals play an essential role in determining their redox and catalyt...
Single-crystalline and uniform nanopolyhedra, nanorods, and nanocubes of cubic CeO2 were selectively...
In this research, high resolution transmission electron microscopy (HRTEM) and high angle annular da...
Ceria (CeO2) plays a vital role in emerging technologies for environmental and energy-related applic...
Ceria (CeO2) plays a vital role in emerging technologies for environmental and energy-related applic...
Cerium oxide (CeO2) or ceria has been shown to be an interesting support material for noble metals i...
It is of significant importance for the applications to controllably and facilely synthesize ceria w...
none5Cerium oxide with spheric, flowerlike and needle-like shapes has been synthesized by a simple ...
Controllable preparation of ceria nanotube was realized by hydrothermal treatment of Ce(OH)CO3 precu...
Here, the trustworthy work has been completed for the hydrothermal and co-precipitation methods of s...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...
The ability to control the size and morphology is crucial in optimizing nanoceria catalytic activity...