Sentence examples for morphological characterization showed from inspiring English sources
The morphological characterization showed that the synthetic ZHS/GO nanocomposites exhibited some independent and separate ZHS nanoparticles are well distributed on the surface of GO.
Detailed morphological characterization showed that initially, at low DR, stretching resulted in lamellar organization (along the MD).
Morphological characterization showed that the addition of collagen to PLGA resulted in narrowing of the diameter distribution and a reduction in average diameter.
Morphological characterization showed that the addition of GT to PCL solution results in decreasing the average diameter of the PCL/GT nanofibers.
The chemical and morphological characterization showed that α- and β-TCP phases co-existed in the α/β-TCP bioceramics and they had interconnected pore structures with size between 200 and 500 μm.
The morphological characterization showed that the homogeneous microbeads had negative surface charge.
Morphological characterization shows that the porous particles with size of about 4 μm are composed of small primary particles of about 200 nm with many tiny channels inside the microparticles.
The structural and morphological characterizations showed that composites possessed a special 3D structure, which consisted of well-dispersive porous carbon particles growing chemically on the graphene sheets.
Morphological and structural characterization showed that when graphitization was done in one step, after the deposition of multiple cycles of PyC, the presence of a large amount of disordered carbon on the surface of nanotubes led to a poorly graphitized coating structure that did not resembled nanotube walls anymore.
Morphological and structural characterizations showed porous nature of ZnO spheres with high surface area, good crystallinity, wurtzite hexagonal phase and good optical features.
Morphological characterization studies showed a homogeneous dispersion of the filler material (size ∼ 200 nm) and a very good adhesion between the core and the sheath regions.
