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CO2 electroreduction favors carbon isotope 12C over 13C and facilitates isotope separation

Magda H. Barecka, Mikhail Kovalev, Marsha Zakir Muhamad, Hangjuan Ren, Joel W. Ager, Alexei A. Lapkin

2023iScience11 citationsDOIOpen Access PDF

Abstract

We discovered that CO 2 electroreduction strongly favors the conversion of the dominant isotope of carbon ( 12 C) and discriminates against the less abundant, stable carbon 13 C isotope. Both absorption of CO 2 in the alkaline electrolyte and CO 2 electrochemical reduction favor the lighter isotopologue. As a result, the stream of unreacted CO 2 leaving the electrolyzer has an increased 13 C content, and the depletion of 13 C in the product is several times greater than that of photosynthesis. Using a natural abundance feed, we demonstrate enriching of the 13 C fraction to ∼1.3% (i.e., +18%) in a single-pass reactor and propose a scalable and economically attractive process to yield isotopes of a commercial purity. Our finding opens pathways to both cheaper and less energy-intensive production of stable isotopes ( 13 C, 15 N) essential to the healthcare and chemistry research, and to an economically viable, disruptive application of electrolysis technologies developed in the context of sustainability transition.

Topics & Concepts

Context (archaeology)Stable isotope ratioChemistryIsotopes of carbonCarbon fibersIsotopologueIsotopeElectrochemistryEnvironmental chemistryMaterials scienceElectrodeOrganic chemistryPhysical chemistryTotal organic carbonQuantum mechanicsMoleculePhysicsPaleontologyBiologyComposite numberComposite materialAmmonia Synthesis and Nitrogen ReductionChemical Reactions and IsotopesCO2 Reduction Techniques and Catalysts
CO2 electroreduction favors carbon isotope 12C over 13C and facilitates isotope separation | Litcius