Progress on Fe‐based polyanionic oxide cathodes materials toward grid‐scale energy storage for sodium‐ion batteries
The development of large‐scale energy storage systems (EESs) is pivotal for applying
intermittent renewable energy sources such as solar energy and wind energy. Lithium‐ion …
intermittent renewable energy sources such as solar energy and wind energy. Lithium‐ion …
Critical interface between inorganic solid-state electrolyte and sodium metal
With widening applications in next-generation energy storage systems, rechargeable
secondary batteries with enhanced safety and energy density are imperative for …
secondary batteries with enhanced safety and energy density are imperative for …
Antiferromagnetic ordering and glassy nature in the sodium superionic conductor
We investigate the crystal structure and magnetic properties, including spin relaxation and
magnetocaloric effect, in a NASICON-type NaFe 2 PO 4 (SO 4) 2 sample. The Rietveld …
magnetocaloric effect, in a NASICON-type NaFe 2 PO 4 (SO 4) 2 sample. The Rietveld …
Unraveling the Multielectron Redox Reactions of β-VOPO4 for Sodium Ion Batteries
Realizing multielectron redox reactions is a promising strategy to improve the specific
capacity and energy density of rechargeable batteries. Although reversible two-electron …
capacity and energy density of rechargeable batteries. Although reversible two-electron …
Na ion batteries: An India centric review
Develo** low-cost and safe energy storage devices is the primary goal of every country to
make a carbon-neutral atmosphere by∼ 2050. Batteries and supercapacitors are the …
make a carbon-neutral atmosphere by∼ 2050. Batteries and supercapacitors are the …
Neutron studies of Na-ion battery materials
The relative vast abundance and more equitable global distribution of terrestrial sodium
makes sodium-ion batteries (NIBs) potentially cheaper and more sustainable alternatives to …
makes sodium-ion batteries (NIBs) potentially cheaper and more sustainable alternatives to …
Unlocking the Electrochemistry and the Activation Mechanism in the Iron‐Rich Na0.6Fe1.2PO4 Phase for High‐Performance Sodium‐Ion Storage
Sodium‐ion batteries are considered as the immediate sustainable alternative to lithium‐ion
systems. To reduce the competitiveness gap, improved performances and better …
systems. To reduce the competitiveness gap, improved performances and better …
New Cathode Materials in the Fe‐PO4‐F Chemical Space for High‐Performance Sodium‐Ion Storage
Sodium and iron make up the perfect combination for the growing demand for sustainable
energy storage systems, given the natural abundance and sustainability of the two building …
energy storage systems, given the natural abundance and sustainability of the two building …
Ion-intercalation mechanism and structural relaxation in layered iron phosphate Na3Fe3(PO4)4 cathodes
CL Jakobsen, M Johansen, T Ericsson… - Frontiers in Batteries …, 2024 - frontiersin.org
Layered Na3Fe3 (PO4) 4 can function as a positive electrode for both Li-and Na-ion
batteries and may hold advantages from both classical layered and phosphate-based …
batteries and may hold advantages from both classical layered and phosphate-based …
Antiferromagnetic ordering and glassy nature in NASICON type NaFePO(SO)
We investigate crystal structure and magnetic properties including spin relaxation and
magnetocaloric effect in NASICON type NaFe $ _2 $ PO $ _4 $(SO $ _4 $) $ _2 $ sample …
magnetocaloric effect in NASICON type NaFe $ _2 $ PO $ _4 $(SO $ _4 $) $ _2 $ sample …