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The MDZ formation around Ti2O3 particles is believed to be a dominant driving force for the heterogeneous nucleation of intragranular ferrite.
A large number of colloidal silver particles with diameters of 0 25 nm were formed in these photographs and surface plasmon resonance associated with these particles is believed to be the cause of the observed yellowing.
The size of semiconductor particles is believed to affect their photocatalytic activity by reducing the distance that the excited electrons and holes must travel to reach the active surface sites.
However, the surface temperature of the Sn particles is believed to have been approximately the same as the plasma temperature (several thousands of degrees Celsius [18]) because the substrate was covered completely by the plasma.
Such a model, which was first developed on data from several mixtures containing relatively large particles, i.e. millimetre and micrometre size particles, is believed to be acceptable for use with nanofluids.
Moreover, mounting data points to a possible interplay between these factors: for instance, oligomerization of F1F0 ATP synthase particles is believed to be capable of inducing a strong bending of the IM [46].
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Compared to micron-sized particles, nanoscale particles are believed to exhibit unique physicochemical properties.
The interactions between PANI matrix and GO particles are believed to be responsible for the observed enhanced stability in the nanocomposite films.
Thermal stresses originated from sintering of CB itself and 3YSZ particles were believed to be the driving forces that promoting the CNT/CNF nucleation and growth.
The TiO2 particles are believed to possess low toxicity and thus are widely used in biomedical applications for their excellent biocompatibility [7 9].
The particles are believed to be delivered to the systemic circulation through the lymphatic system (Sakuma et al. 2001; Eldridge et al. 1990).
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