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Beilstein J. Nanotechnol. 2020, 11, 61–67, doi:10.3762/bjnano.11.6
Figure 1: Typical TEM image of Au NPs before thermal treatment.
Figure 2: Morphology of the Au NPs and after annealing at (a) 200 (b), 400 (c) 600 (d) and 800 °C. Slight rou...
Figure 3: Au NP annealed at 800 °C with well-pronounced five-fold twinned inner structure.
Figure 4: The transition of 5 and 2 nm NPs into rounded shapes bounded by energetically favorable surfaces. A...
Figure 5: (a) Profile of a Au NP and (b) topography image of NPs on the Si substrate prior to manipulation. (...
Figure 6: Dissipated power per NP radius as a function of the NP diameter. The diameter is defined as the hei...
Figure 7: Evolution of the SiO2 layer thickness as a function of the annealing temperature.
Beilstein J. Nanotechnol. 2019, 10, 2468–2476, doi:10.3762/bjnano.10.237
Figure 1: Schematic and SEM image of a pentagonal silver nanowire (Ag NW). SEM image adapted with permission ...
Figure 2: (a) Atomic simulation model of the Ag NW, (b) the internal twin structures (atoms in perfect lattic...
Figure 3: SEM (a) and TEM (b,c) images of deformed Ag NWs drop-cast from a solution.
Figure 4: Ag NW bending experiment observed inside a SEM. (a) Straight NW before bending, (b) NW bent close t...
Figure 5: Distribution of angles of the deformed NWs after an abrupt plastic event in the bending tests.
Figure 6: Von Mises stress distribution in a bent Au NW at the critical bending angle, corresponding to the m...
Figure 7: Au and Ag NW yield strengths as revealed from the bending tests.
Figure 8: Bending force versus displacement curve (top) and the evolution of the atomic structure and the int...
Figure 9: Bending of an alumina-coated silver NW. No breaking or abrupt deformation were observed even for re...