The upsurging demand for electric vehicles and the rapid consumption of lithium‐ion
batteries (LIBs) calls for LIBs to possess high energy density and resource sustainability …

Owing to the sustainability, environmental friendliness, and structural diversity of biomass‐
derived materials, extensive efforts have been devoted to use them as energy storage …

Abstract Lithium–sulfur (Li‐S) batteries have a high specific energy capacity and density of
1675 mAh g− 1 and 2670 Wh kg− 1, respectively, rendering them among the most promising …

The shuttle effect of polysulfides and Li2S sluggish nucleation are the major problems
hampering the further development of lithium–sulfur batteries. The reasonable design for …

Lignocellulosic biomass has attracted great interest in recent years for energy production
due to its renewability and carbon–neutral nature. There are various ways to convert …

The commercial breakthrough of Li‐ion batteries (LIBs) in the 1990s irrevocably shaped
today's energy storage landscape, but the disposed batteries represent a growing hazard to …

Using lithium (Li) directly as metal anode for a higher energy density battery is one of the
most attractive battery researches in the past decade. To address its intrinsic issues …

The advances in process engineering, nanotechnology, and materials science gradually
enable the potential applications of biomass in novel energy storage technologies such as …

Abstract Sodium (Na) ion batteries (SIBs) are promising in stationary energy storage
applications. Research is also afoot to seek suitable electroactive materials for use in SIBs …

While biomass waste is generated in abundance, these materials and their production
processes are generally environmentally friendly, low cost, non-hazardous and easily …