Sentence examples for mean primary diameter from inspiring English sources

Zinc oxide particles (CAS No. 1314-13-2, MZ-500, without coating, with a mean primary diameter of 25 nm) were obtained from Tayca Cooperation, Osaka, Japan.

We studied the solubility-driven toxicity of 100 × 6100 nm (mean primary diameter × length) silver nanowires (NWs) to recombinant bioluminescent Escherichia coli as a target representative of enteric pathogens.

By fitting calculated TR-LII cooling curves to the measured signals, it was possible to determine the mean primary particle diameter and the geometric standard deviation of the in-cylinder particles for an assumed lognormal size distribution.

The degree of disorder of graphene layers (RS analysis bands), fringe interspace distance (∼1.5 nm with XRD, and ∼0.46 nm with HRTEM), fringe length (∼2.5 4 nm with XRD, and ∼0.9 nm with HRTEM), median fringe tortuosity (∼1.1), mean primary particles diameter (∼25 nm), and fractal dimension (∼2.3) were similar for all soot samples.

The images show strongly agglomerated particles with mean primary particle diameters in the range of 10 100 nm, depending on the experimental conditions.

Mean "primary" particle diameters were found to be in the range of 13 47 nm, increasing with TMA concentration and sampling position (increasing residence time).

Mean primary soot particle diameter and mean aggregate size at the location of measurement were determined using the technique of thermophoretic sampling/transmission electron microscopy analysis.

In terms of the mean temperature, soot volume fraction, primary soot particle number density, primary soot aggregate number density, mean number of primary particle per aggregate, mean radius of soot aggregate, and mean primary soot particle diameter, the predicted profiles agreed reasonably well with the experimental data.

In this study we showed that the toxicity of 100 × 6100 nm (diameter × length, mean primary size) Ag nanowires and 83 nm nanospheres (mean primary size) to gram-negative bacterium E. coli a representative of enteric pathogens was driven by dissolved Ag+ ions.

Nanocrystalline α-alumina powders with a primary mean particle diameter of 10 nm were synthesized from aluminum nitrate and ammonia solution using a precipitation method.

The mean diameters of primary osteons' vascular canals, Haversian canals and secondary osteons in rats of the control group were 8.44 ± 1.11 μm, 9.46 ± 1.38 μm, and 40.21 ± 6.62 μm, respectively.