Rapid Scan EPR Oxygen Imaging in Photoactivated Resin Used for Stereolithographic 3D Printing

立体光刻 光致聚合物 材料科学 不透明度 电子顺磁共振 聚合 3D打印 氧气 极限氧浓度 纳米技术 化学 光学 核磁共振 复合材料 聚合物 有机化学 物理
作者
Oxana Tseytlin,Ryan C. O’Connell,Vignesh Sivashankar,Andrey A. Bobko,Mark Tseytlin
出处
期刊:3D printing and additive manufacturing [Mary Ann Liebert, Inc.]
卷期号:8 (6): 358-365 被引量:6
标识
DOI:10.1089/3dp.2020.0170
摘要

Oxygen plays a critical role in the photopolymerization process resulting in the formation of solid structures from liquid resins during three-dimensional (3D) printing: it acts as a polymerization inhibitor. Upon exposure to light, oxygen is depleted. As a result, the polymerization process becomes activated. Electron paramagnetic resonance (EPR) imaging is described as a tool to visualize changes in oxygen distribution caused by light exposure. This nondestructive method uses radio waves and, therefore, is not constrained by optical opacity offering greater penetrating depth. Three proof-of-principle imaging experiments were demonstrated: (1) spatial propagation of the photopolymerization process; (2) oxygen depletion as a result of postcuring; and (3) oxygen visualization in a 3D printed spiral model. Commercial stereolithography (SLA) resin was used in these experiments. Lithium octa-n-butoxynaphthalocyanine (LiNc-BuO) probe was mixed with the resin to permit oxygen imaging. Li-naphthalocyanine probes are routinely used in various EPR applications because of their long-term stability and high functional sensitivity to oxygen. In this study, we demonstrate that EPR imaging has the potential to become a powerful visualization tool in the development of 3D printing technology, including bioprinting and tissue engineering.
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