Metal-based nanostructured materials for advanced lithium–sulfur batteries
Since the resurgence of interest in lithium–sulfur (Li–S) batteries at the end of the 2000s,
research in the field has grown rapidly. Li–S batteries hold great promise as the upcoming …
research in the field has grown rapidly. Li–S batteries hold great promise as the upcoming …
Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage
Transition metal sulfides with mixed vulcanized states (TMS‐mVs) possess tremendous
potential to realize highcapacity, superior redox reactions, and structural reversibility for …
potential to realize highcapacity, superior redox reactions, and structural reversibility for …
A machine learning-based multimodal electrochemical analytical device based on eMoSx-LIG for multiplexed detection of tyrosine and uric acid in sweat and saliva
Multiplexed detection of biomolecules is of great value in various fields, from disease
diagnosis to food safety and environmental monitoring. However, accurate and multiplexed …
diagnosis to food safety and environmental monitoring. However, accurate and multiplexed …
High-capacity rechargeable batteries based on deeply cyclable lithium metal anodes
Discovering new chemistry and materials to enable rechargeable batteries with higher
capacity and energy density is of paramount importance. While Li metal is the ultimate …
capacity and energy density is of paramount importance. While Li metal is the ultimate …
Exploring the bottlenecks of anionic redox in Li-rich layered sulfides
Anionic redox chemistry has emerged as a new paradigm to design higher-energy lithium
ion-battery cathode materials such as Li-rich layered oxides. However, they suffer from …
ion-battery cathode materials such as Li-rich layered oxides. However, they suffer from …
Chalcocarbogels as High-Capacity and Cycle-Stable Electrode Materials for Lithium and Sodium Ion Batteries
The low capacities of commercial Li ion batteries and cycle instabilities of amorphous metal
sulfide based batteries impose constraints on their utilization for large-scale energy storage …
sulfide based batteries impose constraints on their utilization for large-scale energy storage …
Lithium thiophosphate functionalized zirconium MOFs for Li–S batteries with enhanced rate capabilities
Zirconium metal–organic frameworks (Zr-MOFs) are renowned for their extraordinary
stability and versatile chemical tunability. Several Zr-MOFs demonstrate a tolerance for …
stability and versatile chemical tunability. Several Zr-MOFs demonstrate a tolerance for …
Amorphous MoS3 as the sulfur-equivalent cathode material for room-temperature Li–S and Na–S batteries
Many problems associated with Li–S and Na–S batteries essentially root in the generation of
their soluble polysulfide intermediates. While conventional wisdom mainly focuses on …
their soluble polysulfide intermediates. While conventional wisdom mainly focuses on …
Deciphering the reaction mechanism of lithium–sulfur batteries by in situ/operando synchrotron‐based characterization techniques
Abstract Lithium–sulfur (Li–S) batteries have received extensive attention as one of the most
promising next‐generation energy storage systems, mainly because of their high theoretical …
promising next‐generation energy storage systems, mainly because of their high theoretical …
Amorphous molybdenum sulfide and its Mo-S motifs: Structural characteristics, synthetic strategies, and comprehensive applications
Amorphous materials are one kind of nonequilibrium materials and have become one of the
most active research fields. Compared with crystalline solids, the theory of amorphous …
most active research fields. Compared with crystalline solids, the theory of amorphous …