2012
DOI: 10.1063/1.4737440
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Probing the three-dimensional strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires

Abstract: We employ three dimensional x -ray coherent diffraction imaging to map the lattice strain distribution, and to probe the elastic properties of a single crystalline Ni (001) nanowire grown vertically on an amorphous Si02 Si substrate. The reconstructed density maps show that with increasing wire width, the equilibrium compressive stress in the core region decreases sharply while the surface tensile strain increases, and gradually trends to a nonzero constant. We use the retrieved projection of lattice distortio… Show more

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Cited by 16 publications
(13 citation statements)
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“…At that time, only the diffraction pattern caused by the isotropic displacement u ∞,i z = bθ/2π was known from Wilson calculations. 29,30 Nowadays, it becomes possible to perform coherent x-ray diffraction on a single nanowire 6,7 and from the atomistic simulations to get a lot of information on the predicted diffractogram. 15 The aim of this section is to investigate the effect on the 044 reflection of each contribution (i.e., anisotropy, dislocation core, surface effects, image effects, twist) to the total u z field caused by an axial screw dislocation in a [011] circular copper nanowire.…”
Section: B Image Effectsmentioning
confidence: 99%
See 1 more Smart Citation
“…At that time, only the diffraction pattern caused by the isotropic displacement u ∞,i z = bθ/2π was known from Wilson calculations. 29,30 Nowadays, it becomes possible to perform coherent x-ray diffraction on a single nanowire 6,7 and from the atomistic simulations to get a lot of information on the predicted diffractogram. 15 The aim of this section is to investigate the effect on the 044 reflection of each contribution (i.e., anisotropy, dislocation core, surface effects, image effects, twist) to the total u z field caused by an axial screw dislocation in a [011] circular copper nanowire.…”
Section: B Image Effectsmentioning
confidence: 99%
“…5 Other studies based on sophisticated x-ray diffraction techniques are currently carried out to resolve the displacement field in these nanosystems. [6][7][8] One significant advance would be, for instance, to identify a single screw dislocation in a single nanowire in order to correlate the influence of this defect to the mechanical properties of the nanowire.…”
Section: Introductionmentioning
confidence: 99%
“…This method of exploiting coherence to the probe strain inside small crystals has been developed for over a decade now. [14][15][16][17]38,47 A major breakthrough was achieved by the group of Robinson that demonstrated inversion of three-dimensional diffraction near the Bragg point into a real-space volume of the gold nanocrystal. 15 Figure 6 shows slices of the reconstructed particle made more than a decade ago.…”
Section: Bragg Coherent Diffractive Imagingmentioning
confidence: 99%
“…As an example, we show results from the imaging of an individual nickel nanowire (NW). 47 The nanowires were grown on the Si substrate using a chemical vapor deposition method at 650°C. The crystallinity of the nanowires was confirmed with electron diffraction, while SEM micrographs provided knowledge on the shape.…”
Section: A Transition Metalmentioning
confidence: 99%
“…For crystals in which F HKL is predominantly modulated by internal strain fields, a formalism has been established to quantitatively convert reconstructed phase into a scalar component of the local strain tensor [26]. While this formalism has been used to image and analyze internal strain in many different nanoscale crystals [26,27], it is not applicable when F HKL is predominantly modulated by non-uniform ionic displacements within the unit cell, as in stripe domains in a displacive perovskite ferroelectric crystal. A PbTiO 3 crystal in the ferroelectric phase has a structure characterized by picometer-scale displacements of ions away from their centrosymmetric positions along the elongated tetragonal axis [28].…”
Section: Imaging Local Polarization In Ferroelectric Thin Films By Comentioning
confidence: 99%