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Beilstein J. Nanotechnol. 2017, 8, 494–505, doi:10.3762/bjnano.8.53
Figure 1: The concentration of TMAH and the growth temperature play a critical role in controlling the morpho...
Figure 2: Schematic representation of growth and interlocking of cobalt nanoplates. (a) The growth curve show...
Figure 3: Schematic showing the growth of nanoplates. (a) Simultaneous presence of twinned and single- crysta...
Figure 4: Cobalt nanoplates formed under ultrasonication. Micrographs captured after 45 min emphasize the imp...
Figure 5: FEGTEM micrographs of cobalt-TMAH rods synthesized at 50 °C. (a) FEGTEM micrograph captured after 1...
Figure 6: Crystal structure analysis of hierarchical nanoplates. (a,b) A group of nanoplates and the correspo...
Figure 7: Co-TMAH nanorods obtained at 50 °C. (a) High-resolution image of a small section from inset (a1) sh...
Figure 8: Growth under low and high driving forces. (a) Lateral growth observed under low driving force resul...
Figure 9: Cobalt structures formed in the presence of NH4OH. (a,b) FEGTEM and FEGSEM micrographs captured aft...
Figure 10: Manipulation of morphologies by TEAH and TBAH. (a,b) FEGSEM micrographs show cobalt-TEAH captured a...
Figure 11: Magnetic properties of the synthesized nanostructures. (a) Magnetization versus magnetic field reco...