Synthesis of Gold Nanorods from Metallic Gold by a Sonoelectrochemical Method

Abstract: In this work we report a sonoelectrochemical approach for synthesis of gold nanorods from metallic gold. We examined the effect of temperature and electrochemical duration on formation of the gold nanorods. The UV-vis spectra of the synthesized gold nanorods exhibit two peaks due to the surface plasmon resonance absorption: one at about 520 nm corresponding to the transverse electronic oscillation and the second located in the wavelength interval of 680 -800 nm corresponding to the longitudinal electronic osci… Show more

“…The spectra exhibit a strong peak due to the surface plasmon resonance absorption in the wavelength interval of at 420–548 nm, corresponding to the longitudinal transverse electronic oscillation. [ 32 ] The spectral onset ( E sp ) is 741 nm for FO, 715 nm for NFO, 749 nm for AFO, and 731 nm for NAFO. In the literature, various band gap energies for FO, NFO, AFO, and NAFO are reported.…”

Rugged Forest Morphology of Magnetoplasmonic Nanorods that Collect Maximum Light for Photoelectrochemical Water Splitting

“…The spectra exhibit a strong peak due to the surface plasmon resonance absorption in the wavelength interval of at 420–548 nm, corresponding to the longitudinal transverse electronic oscillation. [ 32 ] The spectral onset ( E sp ) is 741 nm for FO, 715 nm for NFO, 749 nm for AFO, and 731 nm for NAFO. In the literature, various band gap energies for FO, NFO, AFO, and NAFO are reported.…”

Rugged Forest Morphology of Magnetoplasmonic Nanorods that Collect Maximum Light for Photoelectrochemical Water Splitting