Over the past few decades, the demand for lithium resources has increased significantly with
the rapid development and extensive application of lithium-ion batteries. Extracting lithium …

Reversible electrochemical processes are a promising technology for energy-efficient water
treatment. Electrochemical desalination is based on the compensation of electric charge by …

Extracting lithium selectively and efficiently from brine sources is crucial for addressing
energy and environmental challenges. The electrochemical system employing LiMn2O4 …

Driven by the electric-vehicle revolution, a sharp increase in lithium (Li) demand as a result
of the need to produce Li-ion batteries is expected in coming years. To enable a sustainable …

Due to the ubiquitous presence of lithium‐ion batteries in portable applications, and their
implementation in the transportation and large‐scale energy sectors, the future cost and …

Modern technology relies on an undisrupted supply of metals, yet many metals have limited
geological deposits. Recovering metals from wastewater and brine could augment metal …

The ever‐increasing amount of batteries used in today's society has led to an increase in the
demand of lithium in the last few decades. While mining resources of this element have …

The electrification of our world is driving a strong increase in demand for lithium. Energy
storage is paramount in electric and hybrid vehicles, in green but intermittent energy …

The demand for lithium resources is growing rapidly due to the continuous development of
the lithium‐ion battery, which plays an important part in the renewable energy industry …

Due to the abundant reserves and increasing demand, the extraction and separation of
lithium from salt-lake brines have attracted great interest worldwide. This review aims to …