Graphene: a promising 2D material for electrochemical energy storage

“…Two‐dimensional nanostructured materials, as a novel family of nanomaterials, possess unusual physiochemical properties, due to the large planar topology and ultrathin thickness . Extensive studies have been conducted on 2D nanomaterials with diversified applications, including electronics, superconductors, sensing, catalysts, energy storage, and energy conversion .…”

“…Two-dimensional nanostructured materials, as an ovel family of nanomaterials, possess unusualp hysiochemical properties, due to the large planar topology and ultrathin thickness. [20][21][22][23] Extensive studies have been conducted on 2D nanomaterials with diversified applications, includinge lectronics, superconductors, sensing, catalysts, energys torage, and energy conversion. [24][25][26] Particularly,a tomic-scale ultrathin layered structures of electrochemically active 2D nanomaterials are attractive for ECs because of the unique layered structures, abundant pores, and ah igh specific surfacea rea, in favor of shortening the charge-transport path and quickening ion transport.…”

Recent Advances of Two‐Dimensional Nanomaterials for Electrochemical Capacitors

“…Two‐dimensional nanostructured materials, as a novel family of nanomaterials, possess unusual physiochemical properties, due to the large planar topology and ultrathin thickness . Extensive studies have been conducted on 2D nanomaterials with diversified applications, including electronics, superconductors, sensing, catalysts, energy storage, and energy conversion .…”

“…Two-dimensional nanostructured materials, as an ovel family of nanomaterials, possess unusualp hysiochemical properties, due to the large planar topology and ultrathin thickness. [20][21][22][23] Extensive studies have been conducted on 2D nanomaterials with diversified applications, includinge lectronics, superconductors, sensing, catalysts, energys torage, and energy conversion. [24][25][26] Particularly,a tomic-scale ultrathin layered structures of electrochemically active 2D nanomaterials are attractive for ECs because of the unique layered structures, abundant pores, and ah igh specific surfacea rea, in favor of shortening the charge-transport path and quickening ion transport.…”

Recent Advances of Two‐Dimensional Nanomaterials for Electrochemical Capacitors

“…[18][19][20][21][22][23][24][25][26][27][28] There are instances graphene research moving from laboratory to commercial platforms. [32][33][34][35] Graphene embarked on its journey into the research arena of AIBs in 2015. There are several excellent Review articles,w hich elaborate both the potentials and limitations of graphene in various energy storage devices.…”

“…There are several excellent Review articles,w hich elaborate both the potentials and limitations of graphene in various energy storage devices. [32][33][34][35] Graphene embarked on its journey into the research arena of AIBs in 2015. [11] Despite the large number of cathode materials identified since 2011, graphene outperforms all other cathodes to be the most promising and frontrunner candidate for AIBs because of at least three important attributes.F irst, although the Al anode…”

Graphene: A Cathode Material of Choice for Aluminum‐Ion Batteries

“…The ever-increasing consumption of energy demands highly efficient energy storage devices, such as supercapacitors that provide high power density, long-term cycle life, and fast charge and discharge process [1][2][3][4][5]. Recently, micro-supercapacitors (MSCs) with multiple compatible characteristics of lightweight, tailored size, robust mechanical flexibility, and ultrahigh power delivery have attracted tremendous attentions [6][7][8].…”

Mesoporous polypyrrole-based graphene nanosheets anchoring redox polyoxometalate for all-solid-state micro-supercapacitors with enhanced volumetric capacitance