Scaling-Free Cathodes: Enabling Electrochemical Extraction of High-Purity Nano-CaCO 3 and -Mg(OH) 2 in Seawater.
Wenda KangShiyu MengYuchen ZhaoJiyuan XuShuai WuKun ZhaoShuo ChenJunfeng NiuHongtao YuXie QuanPublished in: Environmental science & technology (2024)
For electrochemical application in seawater or brine, continuous scaling on cathodes will form insulation layers, making it nearly impossible to run an electrochemical reaction continuously. Herein, we report our discovery that a cathode consisting of conical nanobundle arrays with hydrophobic surfaces exhibits a unique scaling-free function. The hydrophobic surfaces will be covered with microbubbles created by electrolytic water splitting, which limits scale crystals from standing only on nanotips of conical nanobundles, and the bursting of large bubbles formed by the accumulation of microbubbles will cause a violent disturbance, removing scale crystals automatically from nanotips. Benefiting from the scaling-free properties of the cathode, high-purity nano-CaCO 3 (98.9%) and nano-Mg(OH) 2 (99.5%) were extracted from seawater. This novel scaling-free cathode is expected to eliminate the inherent limitations of electrochemical technology and open up a new route to seawater mining.