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Catalysts | Free Full-Text | Metal-Based Electrocatalysts for High-Performance Lithium-Sulfur Batteries: A Review
Theoretical and Experimental Understanding of Metal Single-Atom Electrocatalysts for Accelerating the Electrochemical Reaction of Lithium–Sulfur Batteries | ACS Applied Materials & Interfaces
Directing the Lithium–Sulfur Reaction Pathway via Sparingly Solvating Electrolytes for High Energy Density Batteries | ACS Central Science
a) Overpotential of GITT discharge; b) cyclic voltammetry curves at... | Download Scientific Diagram
Optimization of electrolyte compositions for carbonate lithium–sulfur... | Download Scientific Diagram
Polysulfide Electrocatalysis on Framework Porphyrin in High-Capacity and High-Stable Lithium–Sulfur Batteries | CCS Chemistry
Dense‐Stacking Porous Conjugated Polymer as Reactive‐Type Host for High‐Performance Lithium Sulfur Batteries - Wang - 2021 - Angewandte Chemie International Edition - Wiley Online Library
Realizing high-performance lithium-sulfur batteries via rational design and engineering strategies - ScienceDirect
Flexible and stable high-energy lithium-sulfur full batteries with only 100% oversized lithium | Nature Communications
Potassium‐sulfur batteries: Status and perspectives - Zhao - 2020 - EcoMat - Wiley Online Library
Frontiers | Capturing the Current-Overpotential Nonlinearity of Lithium-Ion Batteries by Nonlinear Electrochemical Impedance Spectroscopy (NLEIS) in Charge and Discharge Direction
Figure 3 from Powering Lithium-Sulfur Battery Performance by Propelling Polysulfide Redox at Sulfiphilic Hosts. | Semantic Scholar
Mitigating first charge overpotential of Li2S-based lithium-sulfur batteries by leveraging PVDF reaction with the LiOH/Li2O layer - ScienceDirect
Frontiers | Capturing the Current-Overpotential Nonlinearity of Lithium-Ion Batteries by Nonlinear Electrochemical Impedance Spectroscopy (NLEIS) in Charge and Discharge Direction
Understanding the lithium–sulfur battery redox reactions via operando confocal Raman microscopy | Nature Communications
Electrochemical performance of the lithium–sulfur batteries. a Rate... | Download Scientific Diagram
Lithium Sulfide Batteries: Addressing the Kinetic Barriers and High First Charge Overpotential | ACS Omega
Polysulfide and Li Dendrite-Blocking Aramid Nanofiber/Metal–Organic Framework Composite Separators for Advanced Lithium–Sulfur Batteries | ACS Applied Nano Materials
Solvent selection criteria for temperature-resilient lithium–sulfur batteries | PNAS
Strategies towards High Performance Lithium‐Sulfur Batteries - Weret - 2022 - Batteries & Supercaps - Wiley Online Library
Mechanism of polysulfide conversion in lithium-sulfur batteries. (a)... | Download Scientific Diagram
A review of cathode materials in lithium-sulfur batteries | SpringerLink
A Li2S-based all-solid-state battery with high energy and superior safety | Science Advances
Poromechanical effect in the lithium–sulfur battery cathode - ScienceDirect
MEET - A Comparison of Lithium-Sulphur and Magnesium-Sulphur Batteries
Artificial dual solid-electrolyte interfaces based on in situ organothiol transformation in lithium sulfur battery | Nature Communications