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 …
Synchrotron radiation based operando characterization of battery materials
Synchrotron radiation based techniques are powerful tools for battery research and allow
probing a wide range of length scales, with different depth sensitivities and spatial/temporal …
probing a wide range of length scales, with different depth sensitivities and spatial/temporal …
Advanced in Situ/Operando Characterizations of Lithium-Sulfur Batteries: a Sine Qua Non
There is a growing interest in develo** lithium-sulfur batteries (LiSBs) due to their high
specific energy capacity, low manufacturing materials, and robustness. However, the …
specific energy capacity, low manufacturing materials, and robustness. However, the …
Charge Storage Mechanism in Electrospun Spinel‐Structured High‐Entropy (Mn0.2Fe0.2Co0.2Ni0.2Zn0.2)3O4 Oxide Nanofibers as Anode Material for Li‐Ion …
High‐entropy oxides (HEOs) have emerged as promising anode materials for next‐
generation lithium‐ion batteries (LIBs). Among them, spinel HEOs with vacant lattice sites …
generation lithium‐ion batteries (LIBs). Among them, spinel HEOs with vacant lattice sites …
Recent advances in battery characterization using in situ XAFS, SAXS, XRD, and their combining techniques: From single scale to multiscale structure detection
W Cheng, M Zhao, Y Lai, X Wang, H Liu, P **ao… - …, 2024 - Wiley Online Library
Revealing and clarifying the chemical reaction processes and mechanisms inside the
batteries will bring a great help to the controllable preparation and performance modulation …
batteries will bring a great help to the controllable preparation and performance modulation …
Prussian blue analogues for potassium-ion batteries: insights into the electrochemical mechanisms
A comprehensive description of the electrochemical mechanisms of the Prussian Blue
Analogue (PBA) K1. 67Mn0. 65Fe0. 35 [Fe (CN) 6] 0.92· 0.45 H2O is obtained by combining …
Analogue (PBA) K1. 67Mn0. 65Fe0. 35 [Fe (CN) 6] 0.92· 0.45 H2O is obtained by combining …
Mechanistic study of magnesium–sulfur batteries
Magnesium–sulfur batteries are considered as attractive energy-storage devices due to the
abundance of electrochemically active materials and high theoretical energy density. Here …
abundance of electrochemically active materials and high theoretical energy density. Here …
Highlighting the reversible manganese electroactivity in Na‐rich manganese hexacyanoferrate material for Li‐and Na‐ion storage
The electroactivity of sodium‐rich manganese hexacyanoferrate (MnHCF) material
constituted of only abundant elements, as insertion host for Li‐and Na‐ions is herein …
constituted of only abundant elements, as insertion host for Li‐and Na‐ions is herein …
Fluorinated Ether Based Electrolyte for High-Energy Lithium–Sulfur Batteries: Li+ Solvation Role Behind Reduced Polysulfide Solubility
By employing new electrolytes, the polysulfide shuttle phenomenon, one of the main
problems of lithium–sulfur (Li–S) batteries, can be significantly reduced. Here we present …
problems of lithium–sulfur (Li–S) batteries, can be significantly reduced. Here we present …
Electrochemical performance of manganese hexacyanoferrate cathode material in aqueous Zn-ion battery
Manganese hexacyanoferrate (MnHCF) has attracted much attention as promising cathode
material for Li and Na ion batteries, owning to its low cost, environmental friendliness, high …
material for Li and Na ion batteries, owning to its low cost, environmental friendliness, high …