The growth of lithium dendrites and low coulombic efficiency restrict the development of Li
metal anodes. Polymer electrolytes are expected to be promising candidates to solve the issue…

We report colloidal routes to synthesize silicon@carbon composites for the first time. Surface‐functionalized
Si nanoparticles (SiNPs) dissolved in styrene and hexadecane are used as …

Although silicon is considered as one of the most promising anode materials, challenges
related to the huge volume expansion, low conductivity, as well as tedious synthesis process …

A facile hydrothermal method was developed to synthesize nitrogen-rich phenolic microspheres
with a tunable ultra-microporous structure for CO2 adsorption. The results highlighted …

To meet the rigorous separation demand for lithium in monovalent ion systems, high layer
charge layered double hydroxides (H-LDHs) were used to extract lithium resource from Na + /…

Machine learning (ML) methods were applied to predict the capacitance of carbon-based
supercapacitors. Hundreds of published experimental datasets are collected for training ML …

Aluminum-based lithium adsorbent has the unique advantage of neutral desorption, while
the adsorption performance declines sharply in sulfate-type brines due to the deficient de-…

Lithium-aluminum layered double hydroxides (Li/Al-LDHs) are the only industrial adsorbents
for Li + extraction from Mg 2+ /Li + ratio brines dependent on the special neutral desorption …

The role of solvent molecules in electrolytes for supercapacitors, representing a fertile ground
for improving the capacitive performance of supercapacitors, is complicated and has not …

Lithium polysulfide sequestration by polymeric binders in lithium–sulfur battery cathodes is
investigated in this study. We prove polycations can effectively adsorb lithium polysulfides via …