Features of electrical conductivity in nanocomposite polymer electrolytes based on polyethylene glycol, LiClO₄and organomodified laponite

“…91 In another study, it was found that the introduction of 1 wt% LAPONITE s into the polymer hydrogel increases the electrical conductivity by reducing the crystallinity and destruction of ionic aggregates. 96 Because of the conductive behviour of LAPONITE s , 97 we hypothesized that the addition of LAPONITE s can result in a conductive gel. This indicates that LAPONITE s could considerably enhance the conductivity of the pure hydrogels, due to the presence of some ionic species such as Mg, Li, and Si, in LAPONITE s , 98 which were observed by the EDX spectra and mapping images.…”

Triple crosslinking conductive hydrogels with digitally printable and outstanding mechanical stability for high-resolution conformable bioelectronics

“…91 In another study, it was found that the introduction of 1 wt% LAPONITE s into the polymer hydrogel increases the electrical conductivity by reducing the crystallinity and destruction of ionic aggregates. 96 Because of the conductive behviour of LAPONITE s , 97 we hypothesized that the addition of LAPONITE s can result in a conductive gel. This indicates that LAPONITE s could considerably enhance the conductivity of the pure hydrogels, due to the presence of some ionic species such as Mg, Li, and Si, in LAPONITE s , 98 which were observed by the EDX spectra and mapping images.…”

Triple crosslinking conductive hydrogels with digitally printable and outstanding mechanical stability for high-resolution conformable bioelectronics

Physico‐Chemical Properties of Laponite®/Polyethylene‐oxide Based Composites