The “Learning from nature” strategy is currently going through a renaissance period in
modern materials science. Valuable experience gained by observing existing natural …

Because of the environmental benignity, abundance, and promising electrochemical
properties of Ti-containing materials in batteries, these materials have been attracting the …

LiFePO 4 cathode material has sluggish Li-ion diffusivity, which largely depends on surface
modification to accelerate its slow kinetic process. Metal oxides, such as Al 2 O 3, are …

All-solid-state batteries primarily focus on macrocrystalline solid electrolyte/cathode
interfaces, and little is explored on the growth and stability of nanograined Li-garnet and …

The development of new high-performance materials can boost the implementation of
sodium-ion batteries. In this work, we report on a data-driven two-step algorithm for …

Triphylite-structured lithium iron/manganese phosphates have captured rapt attention as
prospective positive electrodes for Li-ion batteries, targeted to automotive applications. Here …

Lithium iron phosphate batteries, known for their durability, safety, and cost-efficiency, have
become essential in new energy applications. However, their widespread use has …

Advances in sodium-ion batteries hugely rely on perfecting the performance of active
electrode materials. In this paper, we offer a new NaVOPO 4 polymorph adopting a KTiOPO …

Abstract Pyrophosphate (Li 2 FeP 2 O 7, LFPO) is proposed as a promising cathode material
for Li-ion batteries on account of the high voltage and the two-dimensional lithium ions …

We successfully prepare LiFePO 4 nanosheets with a primary particle linearity of only 50–80
nm with the {010} facet as the main exposed surface by using the mixed-solvent method …