Organic batteries based on just redox polymers

“…diimide. 24 These imides are endowed with the merits of good compatibility during reductions with a variety of counter cations.…”

“…The active components in these devices require light-weight and plastic moldability for seamless integration and compatibility with other components and circuits, which has facilitated recent research into smart devices fabricated with organic redox-active polymers. [17][18][19][20][21][22][23][24] In addition to lightweightness, flexibility, and even stretchability, some such energy devices needed for active telecommunications applications are also required to provide a highly rated, but intermittent, supply of electrical power and/or quick charging, even at limited energy densities. One approach toward ultrafast rechargeable devices with constant output voltages is provided by redox chemistry or charge transport and storage on the soft platform of a redox polymer by chemically tailoring the morphology of the polymer and by judiciously selecting the coexisting electrolyte and tuning the affinity of the polymer for the electrolyte.…”

Organic redox polymers as electrochemical energy materials

“…diimide. 24 These imides are endowed with the merits of good compatibility during reductions with a variety of counter cations.…”

“…The active components in these devices require light-weight and plastic moldability for seamless integration and compatibility with other components and circuits, which has facilitated recent research into smart devices fabricated with organic redox-active polymers. [17][18][19][20][21][22][23][24] In addition to lightweightness, flexibility, and even stretchability, some such energy devices needed for active telecommunications applications are also required to provide a highly rated, but intermittent, supply of electrical power and/or quick charging, even at limited energy densities. One approach toward ultrafast rechargeable devices with constant output voltages is provided by redox chemistry or charge transport and storage on the soft platform of a redox polymer by chemically tailoring the morphology of the polymer and by judiciously selecting the coexisting electrolyte and tuning the affinity of the polymer for the electrolyte.…”

Organic redox polymers as electrochemical energy materials

“…Mostly it can be use as electrochromic material, photochemical manufacturing in microelectronics. The possibilities of using polyaniline as active anodic substance in rechargeable batteries was firstly designed in 1969 [10]. It was designed by preparing polyaniline by chemical oxidative method in presence of sulphuric acid medium.…”

Swift heavy ions modification with polymer composites: A Review

“…Among the different organic redox moieties, quinone functionalities can be readily accessible by the (electro)chemical oxidation of biopolymers such as lignins, tannins and phenolic compounds such as dopamine or catechols. [7] Polymers containing quinone derivates have been gathering renowned interest as high-performance electrodes for EES because of their high theoretical specific capacity, structural diversity, tunable redox potentials and fast kinetics. [8][9][10][11] In particular, within the family of quinones, paraquinone based redox-active polymers have received extensive research efforts for both capacitors and battery applications in recent years.…”

Aging Effect of Catechol Redox Polymer Nanoparticles for Hybrid Supercapacitors