Issue 9, 2019, Issue in Progress

Intact mangrove root electrodes for desalination

Abstract

Through the benefit of billions of years of evolution, biology has developed tremendous strategies on how to co-exist in high salinity and water scarce environments. Biologically-inspired abiotic systems are becoming a central pillar in how we respond to critical grand challenges that accompany exponential population growth, uncontrolled climate change and the harsh reality that 96.5% of the water on the planet is saltwater. One fascinating biologic adaptation to saltwater is the growth of mangrove trees in brackish swamps and along the coasts. Through a process of salt exclusion, the mangrove maintains a near freshwater flow from roots to leaves to survive. One abiotic approach to water desalination is capacitive deionization, which aims to desalinate low-salinity water sources at energy costs below current technologies, such as reverse osmosis and thermal distillation. In this work, we use one-step carbonization of a plant with developed aerenchyma tissue to enable highly-permeable, freestanding flow-through capacitive deionization electrodes. We show that carbonized aerenchyma from red mangrove roots reduces the resistance to water flow through electrodes by 65-fold relative to carbonized common woody biomass. We then demonstrate the practical use of the intact carbonized red mangrove roots as electrodes in a flow-through capacitive deionization system. These findings have implications in a range of fields including water desalination, bioinspired materials, and plant functionality.

Graphical abstract: Intact mangrove root electrodes for desalination

Supplementary files

Article information

Article type
Paper
Submitted
02 Dec 2018
Accepted
22 Jan 2019
First published
11 Feb 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 4735-4743

Intact mangrove root electrodes for desalination

A. R. Wood, R. Garg, K. Justus, T. Cohen-Karni, P. LeDuc and A. J. Russell, RSC Adv., 2019, 9, 4735 DOI: 10.1039/C8RA09899A

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