Julia Krasovic scite author profile

Julia Krasovic

3Publications

24Citation Statements Received

47Citation Statements Given

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Avantium (Netherlands)

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Cathodic Disintegration as an Easily Scalable Method for the Production of Sn- and Pb-Based Catalysts for CO₂ Reduction

Pavesi

Poll

Krasovic

et al. 2020

ACS Sustainable Chem. Eng.

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CO 2 electroreduction to formate powered by renewable energy is an attractive strategy to recycle air-based carbon. At the moment, the electrode materials showing high selectivity for formate at high current density are post transition metals such as In, Sn, Bi, and Pb. Scaling up the CO 2 electroreduction technology to industrial size requires, among other things, cheap and clean methods to produce cathode materials in the form of particles to fabricate the square meters of the electrode surface area needed for the industrial electrolyzers. We show here that it is possible to easily produce catalytic powders based on Sn and Pb via a process known as cathodic disintegration, driving the reaction with electric power and avoiding the use of organic solvents, stabilizers, and reducing agents. The catalysts produced with this method are highly selective for the reduction of CO 2 to formate and show promise for use in industrial electrolyzers. Moreover, the process of cathodic disintegration is quick and clean, it has a high atom efficiency, it uses dilute aqueous electrolytes as solvents, and it has the possibility to be driven by renewable energy.

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Research targets for upcycling of CO2 to formate and carbon monoxide with paired electrolysis

Bosch

Krasovic

Rawls

et al. 2022

Current Opinion in Green and Sustainable Chemistry

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OCEAN: Demonstrating the Electrochemical CCU-Chain – Oxalic Acid from CO2 as Feedstock for Industries

et al. 2022

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Julia Krasovic

Cathodic Disintegration as an Easily Scalable Method for the Production of Sn- and Pb-Based Catalysts for CO₂ Reduction

Research targets for upcycling of CO2 to formate and carbon monoxide with paired electrolysis

OCEAN: Demonstrating the Electrochemical CCU-Chain – Oxalic Acid from CO2 as Feedstock for Industries

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Julia Krasovic

Cathodic Disintegration as an Easily Scalable Method for the Production of Sn- and Pb-Based Catalysts for CO2 Reduction

Research targets for upcycling of CO2 to formate and carbon monoxide with paired electrolysis

OCEAN: Demonstrating the Electrochemical CCU-Chain – Oxalic Acid from CO2 as Feedstock for Industries

Contact Info

Product

Resources

About

Cathodic Disintegration as an Easily Scalable Method for the Production of Sn- and Pb-Based Catalysts for CO₂ Reduction