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Transmission electron microscopy observation revealed the formation of Si QDs after 900°C annealing.
The transmission electron microscopy observation revealed the single crystalline nature of the nanorods.
Scanning electron microscopy observation revealed also that laser treatment induces a change of the microstructure from lamellar to columnar dendritic.
Scanning electron microscopy observation revealed that α-terpineol obviously altered the morphology of P. digitatum hyphae by causing the loss of cytoplasm and distortion of mycelia.
Field emission scanning electron microscopy and transmission electron microscopy observation revealed the homogeneous distribution of SnO2 nanoparticles (4 6 nm in size) on graphene matrix.
Scanning electron microscopy observation revealed that the resultant bulky gel exhibited an interconnected porous three-dimensional (3D) microstructure after freeze-drying.
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Detailed transmission electron microscopy observation reveals that the twin volume fraction of the nanotwinned steel remains constant during tensile deformation.
Field emission scanning electron microscopy and transmission electron microscopy observation reveals the homogeneous distribution of Co3O4 nanoparticles (3 5 nm in size) on graphene sheets.
Transmission electron microscopy observation reveals the AlN to be present in the form of platelets of 2 3 nm in thickness with an orientational relationship of (0 0 1)α//(0 0 1)and and [1 1 0]α//[1 0 0]AlN (Baker Nutting relationship).
The scanning electron microscopy observation reveals that the graphene nanoflakes are either six- or five-sided, and the internal angles between adjacent sides are nearly 120° and 105°, respectively.
Small angle X-ray scattering and transmission electron microscopy observation reveal that under high ϵ̇0, the spherical PS-domains are not appreciably changed, whereas under low ϵ̇0, they are deformed into cylinders and oriented along the direction of elongation, thereby resulting in the large contribution of Δnf.
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