A new sintering approach to ceramics at low temperature from Ba(ZrxTi1-x)O3 nanoparticles doped by ZnO

Abstract: Abstract:The sintering temperature decreases theoretically with the grain size of the ceramic powders, but it is not always right for fine grain sized nanopowders due to the inevitable agglomerations, and thus pores are hard to eliminate thoroughly during sintering. To overcome this difficulty, a new approach is designed to sintering ceramics at low temperature from nanoparticles. In this scheme, excessive dopants, such as ZnO, are synthesized into the nanoparticles, and they would be liberated again on the su… Show more

“…These include the use of surfactants (Ortiz Landeros et al 2012;Zhang et al 2009), emulsification (Binks et al 2010;Noshirvani et al 2017) external forces (Bandekar et al 2014;Guo et al 2016;Sauter et al 2008) and the use of substrates (Miao et al 2007;Zhang, Xue and Wang 2002). In principle, nanoparticles synthesized on substrates will be fixed in space and agglomeration can be prevented (Sun and Sirringhaus 2006).…”

Enhanced photocatalytic activity of ZnO nanoparticles grown on porous silica microparticles

“…These include the use of surfactants (Ortiz Landeros et al 2012;Zhang et al 2009), emulsification (Binks et al 2010;Noshirvani et al 2017) external forces (Bandekar et al 2014;Guo et al 2016;Sauter et al 2008) and the use of substrates (Miao et al 2007;Zhang, Xue and Wang 2002). In principle, nanoparticles synthesized on substrates will be fixed in space and agglomeration can be prevented (Sun and Sirringhaus 2006).…”

Enhanced photocatalytic activity of ZnO nanoparticles grown on porous silica microparticles

Modification of both Pr and Td in ZnO-doped 0.97(Bi0.5Na0.5)TiO3-0.03BiAlO3 ferroelectric ceramics