Results: 5

1.
Figure 4

Figure 4. From: Copper@polypyrrole nanocables.

The UV–vis absorption spectra of the synthesized Cu@PPy liquid phase.

Jullieth Suárez-Guevara, et al. Nanoscale Res Lett. 2012;7(1):521-521.
2.
Figure 3

Figure 3. From: Copper@polypyrrole nanocables.

FTIR-ATR spectra of Cu@PPy sample (I) and pure pyrrole sample (II).

Jullieth Suárez-Guevara, et al. Nanoscale Res Lett. 2012;7(1):521-521.
3.
Figure 5

Figure 5. From: Copper@polypyrrole nanocables.

SEM image of a sample obtained by hydrothermal synthesis of Py:CuOHCl. a: image of a sample obtained by hydrothermal synthesis of Py:CuOHCl with molar ratio of 2:0.78 and period of 72 h at 150°C, b: Lower magnification view of the sample.

Jullieth Suárez-Guevara, et al. Nanoscale Res Lett. 2012;7(1):521-521.
4.
Figure 1

Figure 1. From: Copper@polypyrrole nanocables.

TEM image of Cu@PPy nanocables prepared by hydrothermal synthesis. (a-c) show different regions of the sample Cu@PPy nanocables that were prepared by hydrothermal synthesis of Py:CuOHCl, with molar ratio of 2:0.78 and period of 72 h at 150°C. Inset in (c) shows the SAED of the region marked.

Jullieth Suárez-Guevara, et al. Nanoscale Res Lett. 2012;7(1):521-521.
5.
Figure 2

Figure 2. From: Copper@polypyrrole nanocables.

X-ray diffraction patterns of the synthesized polypyrrole coated copper nanocables and copper chloride hydroxide powder. This figure shows the XRD patterns of the synthesized polypyrrole coated copper nanocables (top) and the copper chloride hydroxide powder (middle dark blue line). The upper red vertical ticks mark the Bragg positions for fcc single crystal copper (ICDD PDF No. 040–0836). The lower light blue vertical ticks show the Bragg peaks of the monoclinic single crystal CuOHCl precursor (ICDD PDF No. 077–0324).

Jullieth Suárez-Guevara, et al. Nanoscale Res Lett. 2012;7(1):521-521.

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