Electrochemistry-driven techniques for advanced energy storage/conversion and
environmental protection play a crucial role in achieving sustainable development goals. As …

Capacitive deionization (CDI) technology has shown practicality and cost-effectiveness for
water desalination. However, electrode development remains a major challenge. Carbon …

W 18 O 49 has been considered as a promising candidate for electrochemical applications,
but it suffers from unsatisfactory electrical conductivity, low specific surface area, poor …

In the past decade, the applications of capacitive deionization have expanded to encompass
resource recovery and targeted ion separation in complex solutions, besides water …

Arsenic (As), a poisonous and carcinogenic heavy metal, affects human health and the
environment. Numerous technologies can remove As from drinking water. Adsorption is the …

Flow-electrode capacitive deionization (FCDI) represents an innovative, chemically-free,
and environmentally-friendly approach for desalination. However, the long-standing …

Weak contact between activated carbon (AC) particles results in a poor conductivity for the
electrode slurry, which limits the improved desalination performance in flow-electrode …

Flow electrodes capacitive deionization (FCDI) is a promising CDI variant, and has been
used in various fields like brackishwater desalination and nutrients recovery. Activated …

Flow electrode capacitance deionization technology (FCDI) has drawn an increasing
interest as a new strategy for desalination. In this paper, we demonstrated the possibility of …

Nitrogen-doped porous carbon with controlled pore structure and wettability was
synthesized using spent mushroom substrate (SMS) via physical activation process. The …