Pillar of Engineering Product Development , Singapore University of Technology and Design , 8 Somapah Road , 487372 , Singapore.
ACS Appl Mater Interfaces. 2018 Nov 28;10(47):40540-40548. doi: 10.1021/acsami.8b14014. Epub 2018 Nov 13.
Seawater desalination is a promising way to alleviate water scarcity nowadays. Present capacitive desalination methods have limitation of salt removal capacity. Herein, a new dual-ion electrochemical desalination system with an ultrahigh desalination capacity is reported. It is composed of NaV(PO)@C wires as a sodium ion Faradaic electrode, AgCl as a chloride ion Faradaic electrode, and salt feed solution as the electrolyte. When a constant current is applied, redox reactions occur on electrodes, releasing or removing sodium ions and chloride ions. NaV(PO) has a high sodium specific capacity, and as a sodium superionic conductor, NaV(PO)@C wires form an ion conductor network, providing high sodium ion mobility. Additionally, both the wire structure and carbon shell enhance the electrical conductivity of NaV(PO). Benefiting from these, outstanding desalination performance, rate capability, and cycle capability have been achieved with the NaV(PO)@C wire-AgCl device. An ultrahigh desalination capacity of 98.0 mg/g is obtained at a current density of 100 mA/g for more than 50 cycles. This system provides a viable dual-ion electrochemical desalination strategy, which outperforms most of the existing desalination methods.
海水淡化是缓解当今水资源短缺的一种有前途的方法。目前的电容去离子方法的脱盐能力有限。在此,报道了一种具有超高脱盐能力的新型双离子电化学脱盐系统。它由 NaV(PO)@C 线作为钠离子法拉第电极、AgCl 作为氯离子法拉第电极和盐进料溶液作为电解质组成。当施加恒流时,电极上发生氧化还原反应,释放或去除钠离子和氯离子。NaV(PO) 具有高的钠离子比容量,并且作为钠离子超离子导体,NaV(PO)@C 线形成离子导体网络,提供高的钠离子迁移率。此外,线材结构和碳壳都增强了 NaV(PO) 的电导率。得益于这些特性,NaV(PO)@C 线-AgCl 器件实现了出色的脱盐性能、倍率性能和循环性能。在 100 mA/g 的电流密度下,超过 50 个循环后可获得 98.0 mg/g 的超高脱盐容量。该系统提供了一种可行的双离子电化学脱盐策略,优于大多数现有的脱盐方法。
