Add to ORKGAbstract. The morphology and structural evolution of nano-SiO2 powers obtained by pressuring samples and sintering in muffle at different temperatures were studied by X-ray diffraction (XRD) and atomic force microscope (AFM). The experimental results show that the particle sizes of nano-SiO2 increase with temperature rising, and it meets the physical mechanism of particle growth
The sizes of silicon nanoparticles produced using two different novel methods are investigated in th...
A method for preventing the growth of oxide nanoparticles is presented. A second oxide phase (e.g. S...
The confinement of the modern day semiconductor devices is fast propelling the growth of nanoparticl...
We report an experimental investigation on the sintering process induced in fumed silica powders by ...
Si nanocrystals in thermal oxide films ( similar to 250 nm) were fabricated by 100 keV Si ion implan...
[[abstract]]This experimental purpose is to utilize an atomic force microscopy(AFM)to survey the mor...
Before and after neutron irradiation, in order to identify the “adhesion” in silica nanoparticles, a...
<p>(A) XRD analysis confirming the sample is amorphous silica. (B) FTIR spectrum indicating the pres...
AbstractBefore and after neutron irradiation, in order to identify the “adhesion” in silica nanopart...
Using combined AFM ( Atomic Force Microscope) and a SEM (Scanning Electron Microscope) makes it poss...
Monodispersed, nano silica particles have been prepared by sol-gel hydrolysis and condensation of th...
Silicon dioxide (SiO2), in its amorphous form, is an approved direct food additive in the United Sta...
Silica nanoparticles (SiO2 NPs) for biomedical applications have been prepared by using a facile mod...
International audienceThe development, manufacturing and commercialization of nanomaterials require ...
Heavy ion irradiation was performed on a-SiO2 layers deposited on Si. Damage of the surface was stud...
The sizes of silicon nanoparticles produced using two different novel methods are investigated in th...
A method for preventing the growth of oxide nanoparticles is presented. A second oxide phase (e.g. S...
The confinement of the modern day semiconductor devices is fast propelling the growth of nanoparticl...
We report an experimental investigation on the sintering process induced in fumed silica powders by ...
Si nanocrystals in thermal oxide films ( similar to 250 nm) were fabricated by 100 keV Si ion implan...
[[abstract]]This experimental purpose is to utilize an atomic force microscopy(AFM)to survey the mor...
Before and after neutron irradiation, in order to identify the “adhesion” in silica nanoparticles, a...
<p>(A) XRD analysis confirming the sample is amorphous silica. (B) FTIR spectrum indicating the pres...
AbstractBefore and after neutron irradiation, in order to identify the “adhesion” in silica nanopart...
Using combined AFM ( Atomic Force Microscope) and a SEM (Scanning Electron Microscope) makes it poss...
Monodispersed, nano silica particles have been prepared by sol-gel hydrolysis and condensation of th...
Silicon dioxide (SiO2), in its amorphous form, is an approved direct food additive in the United Sta...
Silica nanoparticles (SiO2 NPs) for biomedical applications have been prepared by using a facile mod...
International audienceThe development, manufacturing and commercialization of nanomaterials require ...
Heavy ion irradiation was performed on a-SiO2 layers deposited on Si. Damage of the surface was stud...
The sizes of silicon nanoparticles produced using two different novel methods are investigated in th...
A method for preventing the growth of oxide nanoparticles is presented. A second oxide phase (e.g. S...
The confinement of the modern day semiconductor devices is fast propelling the growth of nanoparticl...