Sentence examples for minimal particles from inspiring English sources

In accordance with results of experiments, temperature 350°C has been considered the more promising one for obtaining of Ni/NiO nanopowders with minimal particles size and free carbon content.

As such, it interacts directly and independently with the 5′ domain as well as the 3′ minor domain of 16S ribosomal RNA (rRNA) in minimal particles and the fully assembled 30S subunit.

Minimal particle radius has been found as 2 nm.

A formulation with maximum entrapment efficiency and minimal particle size was optimized by central composite design (CCD) based on mean particle size, and entrapment efficiencies as responses.

The maximal volume of specific surface area at 350°C (Figure 4) indicates that this annealing temperature is more optimal for obtaining powders with minimal particle size and free carbon content.

In accordance with the results of experiments, temperature 350°C has been considered the more promising one for obtaining of Ni/NiO nanopowders with minimal particle size and free carbon content.

Dependences of ammonia content on free carbon concentration and specific surface area (Figure 16) show that ammonia concentration of 9.55 mol/mol Ni2+ was optimal to obtain powders with minimal particle size and free carbon content.

By 48 h, only a minor reduction in microparticle size was observed in the phagolysosomal compartment, indicating minimal particle erosion consistent with being localized within an intracellular microenvironment favoring particle stability.

For particulate systems with minimal particle growth, constant particle nucleation rate and Brownian aggregation, the total particle number approached a "steady-state" value characterized by the equilibrium of particle aggregation and nucleation rates.

One composite was produced to have a very homogeneous spatial distribution with minimal particle clustering and the other was produced to have a relatively heterogeneous distribution with significant particle clustering.

Microstructural features of bamboo leaf ash (BLA)- and SiC-reinforced Al-Mg-Si alloy hybrid composites, fabricated by a two-step stir casting process, revealed good distribution of the reinforcing particles in the matrix with minimal particle clusters (Alaneme et al. 2013).