The applications of alloy‐type anode materials for Na‐ion batteries are always obstructed by
enormous volume variation upon cycles. Here, K+ ions are introduced as an electrolyte …

It is challenging to develop alloying anodes with ultrafast charging and large energy storage
using bulk anode materials because of the difficulty of carrier‐ion diffusion and …

Alloying anodes have long attracted attention as promising candidate electrodes for
application in grid‐level energy storage systems owing to their high energy capacity …

Tin-based composites hold promise as anodes for high-capacity lithium/sodium-ion batteries
(LIBs/SIBs); however, it is necessary to use carbon coated nanosized tin to solve the issues …

Sn‐based composites are considered as one of the promising anode materials for sodium‐
ion batteries (SIBs) due to their high theoretical capacities and suitable operation voltages …

For a next-generation sodium battery to replace lithium ion batteries, it is essential to
develop an anode with a long cycle life and high rate. Sn is considered to be an ideal …

The coalescence of metal nanoparticles in colloidal solutions is a universal and ubiquitous
phenomenon. Using this behavior, a simple yet effective route is developed that enables the …

The fabrication of battery anodes simultaneously exhibiting large capacity, fast charging
capability, and high cyclic stability is challenging because these properties are mutually …

The development of high-efficiency multi-component composite anode nanomaterials for
sodium-ion batteries (SIBs) is critical for advancing the further practical application …

High volumetric capacity and durability anode materials for sodium ion batteries have been
urgently required for practical applications. Herein, we reported a Sn-pillared pyknotic …