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New Material Generates Hydrogen and Fresh Water from Wastewater

Wednesday, January 25, 2017 22:30
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A material made by combining a metal and a polymer can help generate hydrogen and fresh water from wastewater.

Fresh water scarcity and energy security are two critical global challenges facing us today. Researchers at King Abdullah University of Science and Technology (KAUST) have now created an advanced material that can address both problems simultaneously by producing clean water and hydrogen from wastewater.

Electrochemical membrane bioreactors recover clean water for reuse and energy from wastewater by integrating micro- or ultrafiltration membrane cathodes with a microbial electrochemical system. This works by using a material full of pores small enough to block the passage of bacteria while allowing treated, clean water to pass through. The same material also acts as an electrode in an electrochemical circuit that recovers energy through the hydrogen-evolution reaction.
Coating a tube made of non-conductive polymer with a very thin layer of platinum is a simple option for a filtration membrane. 
Credit:  © 2016 KAUST

Previously, porous, flat electrodes have been used as both the cathode for the oxygen-reduction reaction and as the membrane to filter treated water; however, hollow fibers offer a greater surface-area-to-volume ratio, which improves the system’s performance. The drawback of this geometry is that these more complicated structures can be difficult to create and to optimize. For example, materials made from polymers are cheap to produce and flexible, but in general, because they act as electric insulators, they are not used as electrodes.

KAUST Associate Dean and Professor Suzana Nunes and KAUST Associate Professor Pascal Elias Saikaly from the University’s Biological and Environmental Sciences and Engineering Division and their colleagues from their Division and from the Advanced Nanofabrication Imaging and Characterization Center addressed this problem by coating a non-conductive polymer with a very thin layer of platinum, allowing the coated fiber to act as a catalyst for the hydrogen-evolution reaction.

The application of a uniform layer of metal catalyst on three-dimensional, thin, porous, polymeric, hollow fibers is difficult using traditional deposition techniques. To address this challenge, the team used atomic-layer deposition to expose hollow fluorinated polyoxadiazole polymer fibers to a 180 °C gas containing platinum nanoparticles. “We produced the polymer fibers by simply adapting the phase-inversion method, which is already used in the industry,” explained Nunes.

Despite significantly lower platinum loading, the researchers confirmed that the hydrogen-evolution reaction of their material was similar to that of a platinum-carbon cloth, a material combination typically used for this application. Using atomic-layer deposition, the team could fine-tune the pore size of the hollow fibers, demonstrating effective reclamation of the treated effluent to yield high-quality water.

The team believes that the architecture of the three-dimensional porous, hollow fibers has broad applications. “These fibers can potentially be applied to directly convert carbon-dioxide waste from industrial sources to value-added products, such as methane and acetate, through microbial electrosynthesis,” explained Research Scientist Krishna Katuri, the study’s lead author.

Contacts and sources:

KAUST – King Abdullah University of Science and Technology

Citation: Katuri, K. P., Bettahalli, N. M. S., Wang, X., Matar, G., Chisca, S., et al. A microfiltration polymer-based hollow-fiber cathode as a promising advanced material for simultaneous recovery of energy and water. Advanced Materials advance online publication, 12 September 2016.

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