Advances in Designing 3D‐Printed Systems for CO2 Reduction

Advances in Designing 3D‐Printed Systems for CO2 Reduction

The increasing level of atmospheric carbon dioxide (CO2), and the resultant global warming is a matter of growing concern among scientists, environmentalists, and climate experts across the globe over the past several decades. Numerous attempts are being undertaken today that seek solutions to mitig...

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Bibliographic Details
Published in:Advanced materials interfaces Vol. 10; no. 8
Main Authors: Padinjareveetil, Akshay Kumar K., Pumera, Martin
Format: Journal Article
Language:English
Published: Weinheim John Wiley & Sons, Inc 01-03-2023
Wiley-VCH
Subjects:
3D printing
Carbon dioxide
Catalysts
Chemical reduction
CO 2 capture
CO 2 reduction reaction
electrocatalytic reduction
electrochemistry
New technology
Rapid prototyping
Reactors
Three dimensional printing
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Summary:The increasing level of atmospheric carbon dioxide (CO2), and the resultant global warming is a matter of growing concern among scientists, environmentalists, and climate experts across the globe over the past several decades. Numerous attempts are being undertaken today that seek solutions to mitigate this global crisis. This includes designing functional catalysts, devices and reactors to convert greenhouse gasses such as CO2 into useful products like low‐carbon fuels and chemicals, thereby reducing the amount of CO2 considerably in the atmosphere. Advancements in emerging technologies like 3D‐printing can effectively aid in the fabrication of electrodes and devices to tackle the rising CO2 concerns. Low cost, rapid prototyping ability, and printing simple and complex structure are few of the significant merits of this technology. Thus, in this perspective article, discussions on fabricating 3D‐printed (electro)catalysts, customized devices, reactors, etc., via multiple strategies are put forward with emphasis on the electrochemical reduction of CO2. Also, a detailed discussion on the post‐printing treatments, catalyst modifications, and other CO2 mitigation strategies is provided as well. Although studies in this direction are scarcely reported, observations made hitherto show promising possibilities of broadening this field for large scale CO2 reduction reaction applications, and similar catalytic applications in the near future. The rising level of CO2 in the atmosphere has resulted in alarming and unprecedented warming of the earth's surface, which requires immediate solutions. Technological advancements like 3D‐printing can effectively reduce CO2 to several value‐added products. This perspective article discusses the possibility of 3D‐printing technology in the engineering of devices, electrodes, and beyond to control the global menace.
ISSN:2196-7350
2196-7350
DOI:10.1002/admi.202201734