Results 141 to 150 of about 79,223 (305)
Mechanisms of Alkali Ionic Transport in Amorphous Oxyhalides Solid State Conductors
Large‐scale machine learning‐based molecular dynamics simulations are used to investigate isovalent amorphous oxyhalides, revealing a remarkable chemically independent ionic conductivity. A rigorous analysis of alkali residence times across different metal–anion environments identifies divalent anions as key diffusion bottlenecks.
Luca Binci +3 more
wiley +1 more source
The solid electrolyte, argyrodite (Li6PS5Cl or LPSCl), “waxed” with a 25 nm coating of decanoic acid (DA; C10H19O2) is protected against hydrolysis at high relative humidity and maintains its ionic conductivity. DA–LPSCl exhibits enhanced stability at both NCM|DA–LPSCl and Li|DA–LPSCl interfaces: solid state batteries with a bare NCM85 cathode and Li ...
Lanting Qian +5 more
wiley +2 more sources
A catalyst‐free solid‐state Li‐O2 battery achieves current‐driven four‐electron Li2O formation, delivering simultaneous high‐energy and high‐power operation with 1032 Wh·kg−1 and 374 W·kg−1 in a single cell. ABSTRACT Li‐O2 batteries offer a compelling pathway toward next‐generation energy storage owing to their ultrahigh theoretical energy density ...
Shu‐Ting Ko +9 more
wiley +1 more source
Lithium‐sulfur (Li─S) batteries are an attractive option for future energy storage devices because they offer higher theoretical specific capacity, energy density, and cost‐effectiveness than commercial lithium‐ion batteries.
Kayaramkodath Chandran Ranjeesh +9 more
doaj +1 more source
In this study, we developed lithium–sulfur rechargeable batteries using chemically modified thermoplastic sulfur polymers as cathode active materials, aiming to effectively utilize surplus sulfur resources.
Hiroto Tominaga +3 more
doaj +1 more source
An investigation of the feasibility of a spacecraft multifunctional structure using commercial electrochemical cells [PDF]
Multifunctional structures offer the potential for large savings in the mass and cost of spacecraft missions. By combining the functions of one or more subsystems with the primary structure, mass is reduced and internal volume freed up for additional ...
Roberts, Samuel Charles
core
Tracking Dynamic Sulfur Electrochemistry by Operando Techniques in Alkali Metal‐Sulfur Batteries
Dynamic sulfur electrochemistry in alkali metal‐sulfur batteries is tracked through operando spectroscopy, scattering, imaging, and modelling. This Review connects sulfur reaction pathways, polysulfide transport, electrolyte/interphase evolution, anode chemistry, and quantitative mechanistic analysis across Li‐S, Na‐S, and K‐S batteries, providing ...
Fangli Zhang +3 more
wiley +1 more source
In situ polymerization for high performance solid-state lithium-sulfur batteries
Solid-state lithium-sulfur batteries retain high theoretical energy density and low cost of sulfur while eliminating safety issues associated with liquid electrolytes, such as leakage and flammability. More importantly, most solid electrolytes can reduce
Shengxuan Lin +5 more
doaj +1 more source
Carbon nanotubes (CNTs) have been explored as a potential cathode material for lithium-sulfur (Li–S) batteries owing to their unique structure. However, traditional CNTs exhibit poor dispersion properties when preparing electrodes.
Gwang-Hun Kim +5 more
doaj +1 more source
Challenges and enablers in fluidization technology
Abstract Gas–solid fluidized beds provide excellent heat and mass transfer for high‐throughput operations from coating to catalytic conversion and underpin emerging low‐carbon technologies. Yet industrial reliability, scale‐up, and control lag scientific understanding, particularly as finer, stickier, and more variable feedstocks increasingly challenge
J. Ruud van Ommen, Jia Wei Chew
wiley +1 more source

