Fluorine is known to be a key element for various components of batteries since current
electrolytes rely on Li-ion salts having fluorinated ions and electrode binders are mainly …

The development of future energy devices that exhibit high safety, sustainability, and high
energy densities to replace the currently dominant lithium-ion batteries has gained …

The FeF 3 cathode shows some promising potentials for lithium-ion batteries (LIBs) because
of its high theoretical capacity induced by conversion reactions, but the poor electrical …

Conversion-type fluoride cathode can provide considerable energy density for Li batteries,
however its scalable and facile synthesis strategies are still lacking. Here, a novel Fe-based …

Exploring prospective rechargeable batteries with high energy densities is urgently needed
on a worldwide scale to address the needs of the large‐scale electric vehicle market …

Conversion-type transition metal fluoride cathodes offer a 200%–300% higher theoretical
energy density limit than state-of-the-art intercalation cathodes. Recent publications have …

Sodium secondary batteries have gained accolades as future energy storage devices due to
their low costs and environmental benignity, but are heavily impeded by the poor anodic …

The orthorhombic NaFeF3, which is envisioned to be an auspicious positive electrode for Na-
ion batteries, has drawn considerable interest as an environmentally benign energy material …

Abstract Iron fluoride (FeF 3 and FeF 2) is a potential candidate for the next generation of
lithium-ion battery (LIBs) cathode materials due to their high theoretical specific capacity and …

It has been challenging to develop next‐generation higher energy density cathode materials
to satisfy the incremental demand for lightweight and miniaturization for lithium‐ion batteries …