Advances in the development of single‐atom catalysts for high‐energy‐density lithium–sulfur batteries
Although lithium–sulfur (Li–S) batteries are promising next‐generation energy‐storage
systems, their practical applications are limited by the growth of Li dendrites and lithium …
systems, their practical applications are limited by the growth of Li dendrites and lithium …
Review of multifunctional separators: Stabilizing the cathode and the anode for alkali (Li, Na, and K) metal–sulfur and selenium batteries
Alkali metal batteries based on lithium, sodium, and potassium anodes and sulfur-based
cathodes are regarded as key for next-generation energy storage due to their high …
cathodes are regarded as key for next-generation energy storage due to their high …
Sulfur reduction reaction in lithium–sulfur batteries: Mechanisms, catalysts, and characterization
L Zhou, DL Danilov, F Qiao, J Wang… - Advanced energy …, 2022 - Wiley Online Library
Lithium–sulfur batteries are one of the most promising alternatives for advanced battery
systems due to the merits of extraordinary theoretical specific energy density, abundant …
systems due to the merits of extraordinary theoretical specific energy density, abundant …
Engineering d‐p Orbital Hybridization in Single‐Atom Metal‐Embedded Three‐Dimensional Electrodes for Li–S Batteries
Single‐atom metal catalysts (SACs) are used as sulfur cathode additives to promote battery
performance, although the material selection and mechanism that govern the catalytic …
performance, although the material selection and mechanism that govern the catalytic …
A review of heteroatom doped materials for advanced lithium–sulfur batteries
J Wang, WQ Han - Advanced Functional Materials, 2022 - Wiley Online Library
High theoretical capacity and high energy density make lithium sulfur (Li‐S) batteries a
competitive candidate for next‐generation energy storage systems. However, achieving the …
competitive candidate for next‐generation energy storage systems. However, achieving the …
Lightweight Ni foam‐based ultra‐broadband electromagnetic wave absorber
Skin effect and high density are the main reasons that restrict the search of lightweight and
high‐performance metal‐based electromagnetic (EM) wave absorbing materials. Although …
high‐performance metal‐based electromagnetic (EM) wave absorbing materials. Although …
Emerging catalysts to promote kinetics of lithium–sulfur batteries
P Wang, B Xi, M Huang, W Chen… - Advanced Energy …, 2021 - Wiley Online Library
Lithium–sulfur batteries (LSBs) with a high theoretical capacity of 1675 mAh g− 1 hold
promise in the realm of high‐energy‐density Li–metal batteries. To cope with the shuttle …
promise in the realm of high‐energy‐density Li–metal batteries. To cope with the shuttle …
Lithium–sulfur battery cathode design: tailoring metal‐based nanostructures for robust polysulfide adsorption and catalytic conversion
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 …
1675 mAh g− 1 and 2670 Wh kg− 1, respectively, rendering them among the most promising …
Engineering Oversaturated Fe‐N5 Multifunctional Catalytic Sites for Durable Lithium‐Sulfur Batteries
Abstract Lithium‐sulfur (Li‐S) batteries are regarded as a promising next‐generation system
for advanced energy storage owing to a high theoretical energy density of 2600 Wh kg− 1 …
for advanced energy storage owing to a high theoretical energy density of 2600 Wh kg− 1 …
Graphene‐supported atomically dispersed metals as bifunctional catalysts for next‐generation batteries based on conversion reactions
Next‐generation batteries based on conversion reactions, including aqueous metal–air
batteries, nonaqueous alkali metal‐O2 and‐CO2 batteries, alkali metal‐chalcogen batteries …
batteries, nonaqueous alkali metal‐O2 and‐CO2 batteries, alkali metal‐chalcogen batteries …