Photobase-Catalyzed Thiol-ene Click Chemistry for Light-Based Additive Manufacturing

Abstract

Photo-mediated additive manufacturing from liquid resins (vat photopolymerization) is a rapidly growing field that will enable a new generation of electronic devices, sensors, and soft robotics. Radical-based polymerization remains the standard for photo-curing resins during the printing process due to its fast polymerization kinetics and the range of available photoinitiators. Comparatively, there are fewer examples of non-radical chemical reactions for vat photopolymerization, despite the potential for expanding the range of functional materials and devices. Herein, we demonstrate ionic liquid resins for vat photopolymerization that utilize photo-base generators (PBGs) to catalyze thiol-Michael additions as the network forming reaction. The ionic liquid increased the rate of curing, while also introducing ionic conductivity to the printed structures. Among the PBGs explored, 2-(2-nitrophenyl)-propyloxycarbonyl tetramethylguanidine (NPPOC-TMG) was the most effective for the vat photopolymerization process wherein 250 μm features were successfully printed. Lastly, we compared the mechanical properties of the PBG catalyzed thiol-Michael network versus the radical polymerized network. Interestingly, the thiol-Michael network had an overall improvement in ductility compared to the radical initiated resin, since step-growth methodologies afford more defined networks than chain growth. These ionic liquid resins for thiol-Michael additions expand the chemistries available for vat photopolymerization and present opportunities for fabricating devices such as sensors.

Supplementary files

Article information

Article type
Paper
Submitted
06 Oct 2024
Accepted
20 Dec 2024
First published
20 Dec 2024

Polym. Chem., 2024, Accepted Manuscript

Photobase-Catalyzed Thiol-ene Click Chemistry for Light-Based Additive Manufacturing

J. A. Vazquez, X. Lopez de Pariza, N. Ballinger, N. Sadaba, A. Sun, A. O. Olanrewaju, H. Sardon and A. Nelson, Polym. Chem., 2024, Accepted Manuscript , DOI: 10.1039/D4PY01120A

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