Capacitive Deionization (CDI), a burgeoning desalination technology, effectively removes
ionic species from aqueous solutions. One-dimensional (1D) electrospinning nanomaterial …

Layered manganese oxides (LMOs) have recently been demonstrated to be one of the most
promising redox-active material platforms for electrochemical removal of heavy metal ions …

Over the past decades, the rapid population growth coupled with increased awareness
towards nutrition has driven the demand for organic acids (eg, carboxylates) and proteins …

Faradaic deionization (FDI) is an emerging water treatment technology based on electrodes
able to remove ionic species from water by charge transfer reactions. It is a young and …

Clean lithium-ion battery recycling is indispensable to make the battery market sustainable.
Here, we develop an electrochemical approach to separate the cathode film (6 cm× 20 cm) …

Lithium-ion batteries are the primary power source for electric vehicles and portable
electronic devices, creating a massive demand to mine and extract lithium. So far, lithium …

Metal-organic complexes, especially those of ethylenediaminetetraacetic acid (EDTA) with
metals such as copper (Cu) and nickel (Ni)(denoted here as Cu-EDTA and Ni-EDTA), are …

Spent graphite anode (SGA), a hazardous solid waste discharges from end-of-life lithium-ion
batteries, indicating the most significant disadvantages are continuous emission and hard to …

A global energy transition from fossil-based to renewable-based systems requires
advancements in various energy sectors. Current chemical separation processes are quite …

Solvation and ion valency effects on selectivity of metal oxyanions at redox–polymer
interfaces are explored through in situ spatial-temporally resolved neutron reflectometry …