Bioresource Polymer Composite for Energy Generation and Storage: Developments and Trends

Abstract: The ever‐growing demand of human society for clean and reliable energy sources spurred a substantial academic interest in exploring the potential of biological resources for developing energy generation and storage systems. As a result, alternative energy sources are needed in populous developing countries to compensate for energy deficits in an environmentally sustainable manner. This review aims to evaluate and summarize the recent progress in bio‐based polymer composites (PCs) for energy generation and stor… Show more

“…Similar to algal biopolymers, many bacterial biopolymers can be used for batteries. Bacterial cellulose can be carbonized to form nano-carbon, with a very high specific surface area and used as a binder or an electrode, or it can be used without carbonization as an encapsulation material in lithium–sulfur batteries [ 147 , 148 ]. Another bacterial biopolymer that can be used as a binder is xanthan gum, derived from Xanthomonas campestris , which is water-soluble and has a high molecular weight, which was found to provide good capacity retention [ 149 ].…”

Algae-Based Biopolymers for Batteries and Biofuel Applications in Comparison with Bacterial Biopolymers—A Review

“…Similar to algal biopolymers, many bacterial biopolymers can be used for batteries. Bacterial cellulose can be carbonized to form nano-carbon, with a very high specific surface area and used as a binder or an electrode, or it can be used without carbonization as an encapsulation material in lithium–sulfur batteries [ 147 , 148 ]. Another bacterial biopolymer that can be used as a binder is xanthan gum, derived from Xanthomonas campestris , which is water-soluble and has a high molecular weight, which was found to provide good capacity retention [ 149 ].…”

Algae-Based Biopolymers for Batteries and Biofuel Applications in Comparison with Bacterial Biopolymers—A Review

“…This quest has opened up avenues for exploring the potential of graphene oxide in SC technology, revolutionizing the way we store and utilize electrical energy. 15–19 One of the primary advantages of graphene oxide-based SCs lies in their high specific capacitance. Specific capacitance refers to the amount of charge a SC can store per unit mass or unit surface area.…”

Recent advances in energy storage with graphene oxide for supercapacitor technology

Mesoporous materials functionalized with polyaniline for the removal of the phenol from the aqueous solution