Recent advances in NASICON-type oxide electrolytes for solid-state sodium-ion rechargeable batteries
K Singh, A Chakraborty, R Thirupathi, S Omar - Ionics, 2022 - Springer
Solid-state batteries have shown the potential to resolve the safety and durability issues
associated with traditional liquid electrolyte-based batteries. This article reviews the current …
associated with traditional liquid electrolyte-based batteries. This article reviews the current …
Sodium Rich Vanadium Oxy‐Fluorophosphate – Na3.2Ni0.2V1.8(PO4)2F2O – as Advanced Cathode for Sodium Ion Batteries
Conventional sodium‐based layered oxide cathodes are extremely air sensitive and
possess poor electrochemical performance along with safety concerns when operating at …
possess poor electrochemical performance along with safety concerns when operating at …
Differences in the Interfacial Mechanical Properties of Thiophosphate and Argyrodite Solid Electrolytes and Their Composites
Interfacial mechanics are a significant contributor to the performance and degradation of
solid-state batteries. Spatially resolved measurements of interfacial properties are extremely …
solid-state batteries. Spatially resolved measurements of interfacial properties are extremely …
Unleashing the Potential of NASICON Materials for Solid-State Batteries
Solid-state batteries (SSBs) represent a transformative technology with the potential to
redefine energy storage in various applications, including portable electronics, electric …
redefine energy storage in various applications, including portable electronics, electric …
Structure‐mechanical properties correlation in bulk LiPON glass produced by nitridation of metaphosphate melts
The glassy solid electrolyte Lithium phosphorous oxynitride (LiPON) has been widely
researched in thin film solid state battery format due to its outstanding stability when cycled …
researched in thin film solid state battery format due to its outstanding stability when cycled …
Microstructural and mechanical characterization of Na1+xHf2Si2.3P0.7O10.85+0.5x and Na1+xZr2P3-xSixO12 NASICON-type solid electrolytes
JP Gross, G Dück, F Schäfer, M Holzapfel… - Journal of materials …, 2023 - Springer
NASICON-type solid electrolytes are promising materials for novel solid-state-batteries
aiming toward high energy densities. Na1+ x Hf2Si2. 3P0. 7O10. 85+ 0.5 x with varying …
aiming toward high energy densities. Na1+ x Hf2Si2. 3P0. 7O10. 85+ 0.5 x with varying …
Design of CNFs-supported self-standing cathodes for Sodium-ion batteries with enhanced performance at high C-rate
D Conti - 2024 - tesidottorato.depositolegale.it
In this Ph. D thesis, we investigate different approaches to prepare high energy and power
density self-standing electrodes, based on high voltage/capacity active materials and carbon …
density self-standing electrodes, based on high voltage/capacity active materials and carbon …
[PDF][PDF] DOTTORATO IN SCIENZE CHIMICHE E FARMACEUTICHE E INNOVAZIONE INDUSTRIALE (XXXVI Ciclo)
DM Conti - iris.unipv.it
In questa tesi di dottorato si sono studiati diversi approcci per produrre elettrodi self-standing
caratterizzati da alta densità di energia e di potenza, ottenuti con una matrice di nanofibre di …
caratterizzati da alta densità di energia e di potenza, ottenuti con una matrice di nanofibre di …