PVP‐Capped Gold Nanoparticles: Thermal Nonlinear Refraction Probed by Spatial Self‐Phase Modulation

Abstract: The ORCID identification number(s) for the author(s) of this article can be found under https://doi.org/10.1002/pssa.202100600.

“…The chemical synthesis of AgNPs generally uses PVP as a capping agent because of its capacity to disperse metal nanoparticles in solutions. [64][65][66] If PVP prevents AgNP aggregation, even during electrochemical deposition, the introduction of capping agents is expected to be a novel method for controlling the morphology of electrodeposited AgNPs. In this study, the effects of introducing PVP in an Ag deposition-based EC device on the electrochemical properties and morphology of the AgNPs, as well as the optical properties of the EC device, were investigated in detail.…”

The effect of a polymer capping agent on electrodeposited silver nanoparticles in a silver deposition-based electrochromic device

“…The chemical synthesis of AgNPs generally uses PVP as a capping agent because of its capacity to disperse metal nanoparticles in solutions. [64][65][66] If PVP prevents AgNP aggregation, even during electrochemical deposition, the introduction of capping agents is expected to be a novel method for controlling the morphology of electrodeposited AgNPs. In this study, the effects of introducing PVP in an Ag deposition-based EC device on the electrochemical properties and morphology of the AgNPs, as well as the optical properties of the EC device, were investigated in detail.…”

The effect of a polymer capping agent on electrodeposited silver nanoparticles in a silver deposition-based electrochromic device

Influence of excitation light wavelength and irradiation time on photothermal properties of photochemically synthesized colloidal gold