The low energy density, safety concerns, and high cost associated with conventional lithium‐
ion batteries pose challenges in meeting the growing demands of emerging applications …

Revolutionary changes in energy storage technology have put forward higher requirements
on next‐generation anode materials for lithium‐ion battery. Recently, a new class of …

Developing high‐capacity conversion‐type anodes with superior durability substituting
conventional graphite anodes is urgently desired to improve the energy density of lithium …

High-entropy oxides (HEOs) are gaining prominence in the field of electrochemistry due to
their distinctive structural characteristics, which give rise to their advanced stable and …

High‐entropy oxides (HEOs) have emerged as promising anode materials for next‐
generation lithium‐ion batteries (LIBs). Among them, spinel HEOs with vacant lattice sites …

The newly discovered inorganic material termed “high-entropy oxides”(HEOs) nanoparticles
are made up of diverse metal elements and possesses a single-phase structure. HEOs …

High entropy oxide (HEO) has emerged as a new class of anode material for Li‐ion batteries
(LIBs) by offering infinite possibilities to tailor the charge–discharge properties. While the …

Abstract High-Entropy Oxide (HEO) is a new material system for lithium-ion battery (LIB)
electrode materials; however, the poor electrical conductivity and instability of the electrode …

High entropy oxides (HEOs) have gained significant attention in multiple research fields,
particularly in reversible energy storage. HEOs with rock-salt and spinel structures have …

Transition-metal high-entropy oxides show superior electrochemical properties and
excellent long-term cycling stability in secondary batteries due to their entropy stabilization …