Since the first exfoliation in 2004, graphene has been widely researched in many fields of
materials engineering due to its highly appealing properties. Recently, graphene-based …

Advanced 3D carbon‐based electrodes have the potential to significantly enhance the
energy‐power density of lithium ion batteries and sodium ion batteries, due to their …

Li-ion batteries are in demand due to technological advancements in the electronics
industry; thus, expanding the battery supply chain and improving its electrochemical …

All-component 3D-printed lithium-ion batteries are fabricated by printing graphene-oxide-
based composite inks and solid-state gel polymer electrolyte. An entirely 3D-printed full cell …

With the increased demand in energy resources, great efforts have been devoted to
develo** advanced energy storage and conversion systems. Graphene and graphene …

Lithium‐ion batteries (LIBs) have become one of the most prevailing techniques for
rechargeable batteries. Lithium transition metal oxides are prevalent cathode materials …

The demand for high performance electrochemical energy storage devices has significantly
increased in recent years and many efforts have been made to develop advanced electrode …

Graphene is a relatively new and promising material, displaying a unique array of physical
and chemical properties. Although considered to be especially promising for the use in …

The electrochemical properties and performances of lithium-ion batteries are primarily
governed by their constituent electrode materials, whose intrinsic thermodynamic and kinetic …

The specific capacity of commercially available cathode carbon-coated lithium iron
phosphate is typically 120–160 mAh g− 1, which is lower than the theoretical value 170 mAh …