Electrical energy storage is a topic of growing importance. Organic polymer batteries made of earth‐abundant elements are important tools for achieving a sustainable and electrified society. However, organic redox‐active polymers have low conductivity, necessitating conductive additives to be exploited in battery electrodes. To date, most of the organic polymers reported in the literature are mixed with expensive additives, such as graphene and carbon nanotubes. Porous carbons are a sustainable alternative, as they can be obtained from biowaste, and convenient for polymer‐carbon hybrid materials, as they have a high surface area, which can absorb polymers. In order to offer guidelines for achieving batteries with drastically reduced environmental impact while ensuring economic viability, here we review the most important advancements in polymer‐carbon hybrid materials formation. We pay special attention to the choice of porous carbons, as well as to the method of hybrid formation. This perspective is the first guide for the formation of truly sustainable battery electrodes, comprising both sustainable polymer and conductive additives.
Ilic et al. (Wed,) studied this question.