Using renewable electric power to drive CO2 electrochemical reduction to high‐value‐
added chemical fuels can not only solve the problem of excessive emission of CO2, but also …

Binary metal oxide stannate (M2SnO4; M= Zn, Mn, Co, etc.) structures, with their high
theoretical capacity, superior lithium storage mechanism and suitable operating voltage, as …

To break the stereotype that silica can only be reduced via a magnesiothermic and
aluminothermic method at low‐temperature condition, the novel strategy for converting silica …

Lithium-ion capacitors (LICs) are an emerging energy storage device that combines high
energy density with high power density. Tin dioxide (SnO 2) is considered a promising …

Alloy-type materials hold significant promise as high energy density anodes for lithium-ion
batteries. However, the initial coulombic efficiency (ICE) is significantly hindered by the poor …

Although Li-and Mn-rich layered oxides are attractive cathode materials possessing high
energy densities, they have not been commercialized owing to voltage decay, low rate …

The practical application of Sn-based anode materials is limited by their low electrical
conductivity and large volume expansion during cycling. To overcome these challenges, a …

Although lithium-ion batteries are currently the most reliable power supply system for various
mobile applications, further improvement in energy density is still required as the need for …

The aim of the study involves accelerating ultrafast electrochemical behavior of lithium‐ion
batteries (LIBs) by proposing hierarchical core/shell heterostructure of carbon nanofiber …

Nanostructured materials for lithium-ion batteries (LIBs) have many advantages over bulk
electrode materials, and therefore, such materials should be effectively utilized in next …