Zane Grady
YOU?
Author Swipe
View article: Controlling surface chemistry in cold sintering to advance battery materials
Controlling surface chemistry in cold sintering to advance battery materials Open
Cold sintering is a recently introduced densification method that is of interest due to the lower energy used in the process, the ability to densify metastable materials, the ability to integrate materials to develop unique composites, and…
View article: Stabilizing Zn Anodes by Molecular Interface Engineering with Amphiphilic Triblock Copolymer
Stabilizing Zn Anodes by Molecular Interface Engineering with Amphiphilic Triblock Copolymer Open
Aqueous Zn-based electrochemical technologies hold promise for large-scale energy storage applications, yet challenges persist in the unsatisfied Zn reversibility arising from an unstable Zn/electrolyte interface. Here, we employ molecular…
View article: Conductivity of cold sintered diphasic composites containing a ceramic active material and a solid-state electrolyte or carbon for all solid-state batteries
Conductivity of cold sintered diphasic composites containing a ceramic active material and a solid-state electrolyte or carbon for all solid-state batteries Open
Low temperature sintering enables dense composites of ceramic active materials and conductive agents. Conductivity and microstructure of composites is characterized.
View article: Synergistically Stabilizing Zinc Anodes by Molybdenum Dioxide Coating and Tween 80 Electrolyte Additive for High-Performance Aqueous Zinc-Ion Batteries
Synergistically Stabilizing Zinc Anodes by Molybdenum Dioxide Coating and Tween 80 Electrolyte Additive for High-Performance Aqueous Zinc-Ion Batteries Open
Recently, aqueous zinc-ion batteries (ZIBs) have become increasingly attractive as grid-scale energy storage solutions due to their safety, low cost, and environmental friendliness. However, severe dendrite growth, self-corrosion, hydrogen…
View article: Design and Sintering of All-Solid-State Composite Cathodes with Tunable Mixed Conduction Properties via the Cold Sintering Process
Design and Sintering of All-Solid-State Composite Cathodes with Tunable Mixed Conduction Properties via the Cold Sintering Process Open
Electrodes for solid-state batteries require the conduction of both ions and electrons for extraction of the energy from the active material. In this study, we apply cold sintering to a model composite cathode system to study how low-tempe…
View article: A dramatic reduction in the sintering temperature of the refractory sodium β′′-alumina solid electrolyte <i>via</i> cold sintering
A dramatic reduction in the sintering temperature of the refractory sodium β′′-alumina solid electrolyte <i>via</i> cold sintering Open
The refractory solid electrolyte, sodium beta alumina, is cold sintered at 375 °C which is over 1000 °C lower than conventional sintering. A relative density above 90% and an ionic conductivity of 10 −3 S cm −1 (300 °C) is obtained.
View article: Cold Sintering for High-Temperature Electrochemical Applications
Cold Sintering for High-Temperature Electrochemical Applications Open
Although cold sintering remains an emerging processing technique, it is noteworthy to consider recent progress in materials that are of interest to electrochemical systems with elevated service temperatures. Here we discuss a broad number …