In recent years, 3D printing has attracted increasing attention given the highly relevant possibilities and applications in various fields, including materials science, reactor design, and catalysis. To provide an overview of the potential of 3D printing in flow (nano)catalysis, this contribution showcases relevant examples of various 3D-printing techniques for the design of advanced functional (nano)materials and catalysts as well as potential applications in continuous flow (CF) (nano)catalysis, covering heterogeneous conventional, flow, and electrocatalysis, and suitable 3D-printed design devices for such applications.
3D-printing design for continuous flow catalysis
Rodriguez-Padron D.;
2022
Abstract
In recent years, 3D printing has attracted increasing attention given the highly relevant possibilities and applications in various fields, including materials science, reactor design, and catalysis. To provide an overview of the potential of 3D printing in flow (nano)catalysis, this contribution showcases relevant examples of various 3D-printing techniques for the design of advanced functional (nano)materials and catalysts as well as potential applications in continuous flow (CF) (nano)catalysis, covering heterogeneous conventional, flow, and electrocatalysis, and suitable 3D-printed design devices for such applications.
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