Patrick Bonnick
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Role of Lithium Iodide Addition to Lithium Thiophosphate: Implications beyond Conductivity Open
Because of their high conductivity and potential to utilize lithium metal, lithium thiophosphate electrolytes have attracted significant attention to realize solid-state batteries for vehicle applications. However, lithium metal still pres…
The Discharge Mechanism for Solid-State Lithium-Sulfur Batteries Open
The electrochemical discharge mechanism is reported for all-solid lithium sulfur batteries. Upon milling with carbon fibers, the solid electrolyte used within the cathode composite becomes electrochemically active. Analysis with Raman spec…
Insights into Mg<sup>2+</sup> Intercalation in a Zero-Strain Material: Thiospinel Mg<sub><i>x</i></sub>Zr<sub>2</sub>S<sub>4</sub> Open
In this paper, the Mg battery cathode material, thiospinel MgxZr2S4 (0 ≤ x ≤ 1), exhibits negligible volume change (ca. 0.05%) during electrochemical cycling, providing valuable insight into the limiting factors in divalent cation intercal…
Perspective—Lithium-Sulfur Batteries Open
Despite immense effort to solve the problem of lithium polysulfide dissolution in Li-S batteries, only partially successful solutions have been found for liquid-based electrolytes. Further research efforts to showcase new sulfur, positive …
Layered TiS 2 Positive Electrode for MgBatteries Open
Magnesium batteries are a good candidate\nfor high energy storage\nsystems, but the limited discovery of functional positive electrode\nmaterials beyond the seminal Chevrel phase (Mo6S8) has slowed their development. Herein, we report on l…