Sentence examples for morphological characterization revealed from inspiring English sources
Morphological characterization revealed that the electrochemically modified electrode surfaces have a very porous surface area.
Morphological characterization revealed the necessity of intense shear stress for achieving intercalation and exfoliation when chemical interactions between filler and matrix are unfavorable.
Structural and morphological characterization revealed that the FeS2 nanoparticles are evenly surrounded in the interconnected rGO networks.
Morphological characterization reveals that three-dimensional hierarchy architecture is built with a highly porous layer consisting of interconnected MnO2 nanoflakes uniformly coated on the CNT surface.
Structural and morphological characterizations revealed spinal cubic structure and porous morphology of CuFe2O4 adsorbent.
The structural and morphological characterizations reveal the presence of the cuboid and raspberry nanostructures with a high order of crystallinity and extended interlayer spacing.
The morphological and structural characterization reveals that SnO2 yolk-shell particles have a hierarchical architecture with penetrable multi-walled surfaces and cuboctahedral shape, where the secondary building blocks are numerous nanoparticles.
Morphological characterization also revealed that the microstructure of the segmented polyurethanes shifts from soft segment continuous to interconnected and/or hard domain continuous with increasing hard segment size, resulting in diminished ultimate elongation, but enhanced initial moduli and tensile strengths.
A combination of structural, morphological, and surface characterization reveals a complex catalyst material with a synergistic and bifunctional character originating from the supported Ga and Pt moieties, with Ga performing the actual dehydrogenation reaction and Pt being a unique promoting element.
Further characterization revealed seven different families of ligases.
The initial characterization revealed persistent transgene expression in liver.
