Influence of polyvinylpyrrolidone (PVP) capping layer on silver nanowire networks: theoretical and experimental studies

Abstract

This study conducts an experimental and theoretical investigation of the influence of a polyvinylpyrrolidone (PVP) capping layer on silver nanowire (AgNWs) networks. Through a washing method, a PVP layer on AgNWs was removed and the contact resistance (R_C) between AgNWs was reduced, thereby obtaining a reduced sheet resistance (R_S) of AgNW film. During the washing process, the thickness of the PVP layer decreased to 1 nm with an increasing number of washes, as demonstrated by a molecular dynamics simulation. In addition, the size of the change in R_S resulting from the reduction in R_C by the removal of PVP decreased as the areal coverage of NWs increased. In order to explain the results, Monte Carlo simulations were performed and the results show that the reduction in R_C by the removal of PVP apparently reduces the value of R_S more as the areal coverage of NWs decreases and the initial value of R_C of the network increases. Saturation of the reduction in R_S also occurs when the inherent resistance of AgNW (R_NW) becomes dominant. Along with the electrical properties, improved transmittance and a reduction in haze were observed with the removal of PVP, and the results prove that R_S can be reduced by reducing R_C without impairing the optical properties of transparent conducting electrodes.