Design and Development of 3D Printed Catalytically-Active Stirrers for Chemical Synthesis

31 December 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

In this present study, we describe the novel design, preparation and evaluation of catalyst-impregnated stirrer beads for chemical synthesis. Using a low-cost SLA 3D printer and freeware design software, a high surface area holder for a magnetic stirrer bead was developed and 3D printed containing p-toluenesulfonic acid. The devices were used to efficiently catalyze Mannich reactions in excellent yields and it was demonstrated that the devices can be re-used up to 5-times with excellent reproducibility.

Keywords

3D printed object
Catalysis
Stirrer
3D Printing
reactionware
stereolithography

Supplementary materials

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2019 Stirrer RXIV
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2019 Hilton Stirrer Device supporting Information
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2019 Hilton Stirrer Device supporting Information
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