期刊
ACS NANO
卷 2, 期 8, 页码 1620-1624出版社
AMER CHEMICAL SOC
DOI: 10.1021/nn800092m
关键词
anatase; rutile; titania nanoparticles; phase transformation; phase stability; molecular dynamics simulation
The size below which anatase nanoparticles become more stable than rutile nanoparticles (crossover diameter) is dependent on the environment of the nanoparticles. It is smaller for nanoparticles in vacuum than those in water and continues to decrease with increase in temperature. Phase transformation between anatase and rutile phases is facilitated by enhanced ionic mobility at temperatures near the melting point of the nanciparticles. Multiparticle multiphase molecular dynamics simulations of TiO2 nanoparticles undergoing sintering-induced phase transformations are reported here. Over the time scales accessible to molecular dynamics simulations, we found that the final sintering agglomerate transformed to the rutile phase, provided one of the sintering nanoparticles was rutile, while sintering of anatase and amorphous nanoparticles resulted in a brookite agglomerate. No such phase transformations were observed at temperatures away from nanoparticle's melting temperatures.
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