In this work, all ternary electrolyte systems were prepared using the same molar ratio of Li[TFSI], corresponding GIL, and water (1:1:3), and all obtained results are compared to the non-IL-containing WISE in the ratio of 1:3 (Li[TFSI]: water). This ratio between lithium salt and ...
ChemInform Abstract: "Water‐in‐Salt" Electrolyte Enables High‐Voltage Aqueous Lithium‐Ion Chemistries. Olguin, M.; Ho, J.; Fan, X.; Luo, C.; Wang, C.; Xu, K., "Water-in-Salt" Electrolyte Enables High-Voltage Aqueous Lithium-Ion Chemistries. ... L Suo,O Borodin,G Tao,... -...
High electrochemical reversibility of the TiS 2 anode in "Water-in-Salt" electrolyte (21m LiTFSI in H 2 O) is demonstrated for the first time. The wide electrochemical window and low chemical activity of H 2 O in the "Water-in-Salt" electrolyte not only significantly enhanced the ...
“Water-in-salt”electrolyte enableshigh-voltageaqueous lithium-ionchemistries LiuminSuo, 1 OlegBorodin, 2 TaoGao, 1 MarcoOlguin, 2 JanetHo, 2 XiulinFan, 1 ChaoLuo, 1 ChunshengWang, 1 *KangXu 2 * Lithium-ionbatteriesraisesafety,environmental,andcostconcerns,whichmostlyarise ...
“water-in-salt” electrolyte, we investigated the effect of adding Li salt in humid hydrophobic ILs on the ion and water distributions near electrodes, using molecular dynamics (MD) simulation. The simulation system consists of a slab of humid ILs confined between two graphite electrodes (...
A cost-effective and efficient technology for industrial salt splitting processes, using salt, water and electricity. Salt splitting processes use ion exchange membranes to split salt solutions into their constituent parts. These membranes are made up of two ion exchange membranes – one anionic and ...
The data bank is of great importance for all applications where either a salt may precipitate or the dissolved salt changes the melting curve of another salt or a solvent. In addition, ESLE data are important for the derivation of activity coefficient models for electrolyte solutions. ...
suggested that self-weight collapsible loess soils have a natural water content of 4%–5%, while non-self-weight collapsible loess soils have a value of 21%–24%, which indicates that wetting-induced collapse could not be solely attributed to the solution of soluble salts, especially for non-...
It is found that the electrolyte density increases with increase in salt concentration. Good agreement is found between the simulated densities and experimental measurements as well as earlier simulation predictions [21,36] for Li-NTF2 salt in water at all salt concentrations. In addition, the ...
It has been demonstrated that the introduction of a second salts into the "water-in-salt" electrolyte further pushed the energy densities of aqueous Li-ion cells closer to those of the state-of-the-art Li-ion batteries. 展开 关键词: anatase TiO2 aqueous batteries electrolyte lithium-ion ...