Abstract:

Silver grids are attractive for replacing indium tin oxide as flexible transparent conductors. This work aims to improve the electrochem. stability of silver-based transparent conductors. A silver grid/PEDOT:PSS hybrid film with high cond. and excellent stability is successfully fabricated. Its functionality for flexible electrochromic applications is demonstrated by coating one layer of WO3 nanoparticles on the silver grid/PEDOT:PSS hybrid film. This hybrid structure presents a large optical modulation of 81.9% at 633 nm, fast switching, and high coloration efficiency (124.5 cm2 C-1). More importantly, an excellent electrochem. cycling stability (sustaining 79.1% of their initial transmittance modulation after 1000 cycles) and remarkable mech. flexibility (optical modulation decay of only 7.5% after 1200 compressive bending cycles) is achieved. A novel smart supercapacitor is presented that functions as a regular energy-storage device and simultaneously monitors the level of stored energy by a rapid and reversible color variation even at high current charge/discharge conditions. The film sustains an optical modulation of 87.7% and a specific capacitance of 67.2% at 10 A g-1 compared to their initial value at a c.d. of 1 A g-1. The high-performance silver grid/PEDOT:PSS hybrid transparent films exhibit promising features for various emerging flexible electronics and optoelectronic devices. [on SciFinder(R)]

Notes:

CAPLUS AN 2015:1955738(Journal; Online Computer File)