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Empowerment of Water-Evaporation-Induced Electric Generators via the Use of Metal Electrodes

Tina Tabrizizadeh, Zhe She, Kevin G. Stamplecoskie, Guojun Liu

2022ACS Omega23 citationsDOIOpen Access PDF

Abstract

As water rises in the pores of a partially immersed porous film due to capillary action, it carries along ions that are dissociated from the pore walls, generating a streaming current and potential. The water and current flows are sustained due to water evaporation from the unsubmerged surfaces. Traditionally, inert graphite (C) electrodes are used to construct water-evaporation-induced generators (WEIGs) that harness this electricity. WEIGs are environmentally friendly but have weak power outputs. Herein, we report on C/metal WEIGs that feature C top electrodes and metal bottom electrodes, as well as metal/metal WEIGs. Operating in a NaCl solution that facilitates the Galvanic corrosion of the metal (Cu, steel, and Al) electrodes, these Galvanic WEIGs outperform a C/C WEIG by thousands of times in power output. Equally interestingly, the asymmetric environments and potential differences between the two electrodes of a WEIG facilitate metal corrosion and fabrication of compact Galvanic WEIGs. This study clearly shows that one should choose electrodes with caution for the construction of true WEIGs.

Topics & Concepts

Galvanic cellElectrodeMaterials scienceGalvanic corrosionEvaporationCorrosionMetalElectrochemistryGraphiteInertCathodeMetallurgyComposite materialChemical engineeringChemistryElectrical engineeringEngineeringOrganic chemistryPhysical chemistryThermodynamicsPhysicsSolar-Powered Water Purification MethodsMembrane Separation TechnologiesSurface Modification and Superhydrophobicity
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