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3D Printing of Cantilever-Type Microstructures by Stereolithography of Ferromagnetic Photopolymers

立体光刻 材料科学 光致聚合物 制作 纳米复合材料 3D打印 悬臂梁 复合材料 聚合 纳米技术 聚合物 医学 病理 替代医学
作者
Caterina Credi,Alessandro Fiorese,Marco Tironi,Roberto Bernasconi,Luca Magagnin,Marinella Levi,Stefano Turri
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:8 (39): 26332-26342 被引量:98
标识
DOI:10.1021/acsami.6b08880
摘要

In the present work, prototypes of polymeric cantilever-based magnetic microstructures were fabricated by means of stereolithography (SL). To this end, a UV-curable system suitable for high-resolution SL-processing was formulated by blending a bifunctional acrylic monomer with photoinitiator and visible dye whose content was tuned to tailor resin SL sensitivity. Subsequently, to confer ferromagnetic properties to the photopolymer, two different strategies were implemented. A two-step approach involved selective deposition of a metal layer on photopolymer SL-cured surfaces through an electroless plating process. On the other hand, SL-processable ferromagnetically responsive nanocomposites (FRCs) were obtained by directly loading magnetite nanoparticles within the photopolymer matrix. In order to achieve high-printing resolution, resin SL sensitivities were studied as a function of the various additives contents. Photocalorimetric analyses were also performed to investigate the photopolymer conversion efficiency upon light exposure. High-performing formulations were characterized by reduced penetration depth (<50 μm) and small critical energies thus enabling for fast printing of micrometric structures. Finally, the self-standing characteristics of the resin combined with the layered-fashion deposition typical of the 3D printing technologies were exploited for the fabrication of cantilever (CL)-based beams presented as possible magnetic sensors. As a demonstration of the feasibility of the two approaches, the magnetic beams were successfully actuated and their sensing performances in terms of static deflection vs applied magnetic field applied were qualitatively studied. Being not restricted to CL-based geometries, the combination of SL-printing with the formulation of novel smart photopolymers open the way toward the fabrication of high-customized complex 3D models integrating functional microstructures.
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