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From radial to unidirectional water pumping in zeta-potential modulated Nafion nanostructures

M.J. Esplandiu, David Reguera, Daniel Romero-Guzmán, Amparo M. Gallardo‐Moreno, Jordi Fraxedas

2022Nature Communications30 citationsDOIOpen Access PDF

Abstract

Chemically propelled micropumps are promising wireless systems to autonomously drive fluid flows for many applications. However, many of these systems are activated by nocuous chemical fuels, cannot operate at high salt concentrations, or have difficulty for controlling flow directionality. In this work we report on a self-driven polymer micropump fueled by salt which can trigger both radial and unidirectional fluid flows. The micropump is based on the cation-exchanger Nafion, which produces chemical gradients and local electric fields capable to trigger interfacial electroosmotic flows. Unidirectional pumping is predicted by simulations and achieved experimentally by nanostructuring Nafion into microarrays with a fine tune modulation of surrounding surface zeta potentials. Nafion micropumps work in a wide range of salt concentrations, are reusable, and can be fueled by different salt cations. We demonstrate that they work with the common water-contaminant cadmium, using the own capture of this ion as fuel to drive fluid pumping. Thus, this system has potential for efficient and fast water purification strategies for environmental remediation. Unidirectional Nafion pumps also hold promise for effective analyte delivery or preconcentration for (bio)sensing assays.

Topics & Concepts

MicropumpNafionZeta potentialMicrofluidicsMaterials scienceWork (physics)NanotechnologyChemical engineeringElectrodeChemistryNanoparticleElectrochemistryMechanical engineeringPhysical chemistryEngineeringFuel Cells and Related MaterialsAdvanced Sensor and Energy Harvesting MaterialsNanopore and Nanochannel Transport Studies
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