用于生物医学工程潜在应用的磁光子亚微结构的直接激光写入

Direct Laser Writing of Magneto-Photonic Sub-Microstructures for Prospective Applications in Biomedical Engineering.

作者信息

Au Thi Huong, Trinh Duc Thien, Tong Quang Cong, Do Danh Bich, Nguyen Dang Phu, Phan Manh-Huong, Lai Ngoc Diep

机构信息

Laboratoire de Photonique Quantique et Moléculaire, UMR 8537, École Normale Supérieure de Cachan, Centrale Supélec, CNRS, Université Paris-Saclay, 61 avenue de Président Wilson, 94235 Cachan, France.

Faculty of Physics, Hanoi National University of Education, 136 Xuan Thuy, Cau Giay, 100000 Hanoi, Vietnam.

出版信息

Nanomaterials (Basel). 2017 May 9;7(5):105. doi: 10.3390/nano7050105.

DOI:10.3390/nano7050105

PMID:28486409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5449986/

Abstract

We report on the fabrication of desired magneto-photonic devices by a low one-photon absorption (LOPA) direct laser writing (DLW) technique on a photocurable nanocomposite consisting of magnetite ( Fe 3 O 4 ) nanoparticles and a commercial SU-8 photoresist. The magnetic nanocomposite was synthesized by mixing Fe 3 O 4 nanoparticles with different kinds of SU-8 photoresists. We demonstrated that the degree of dispersion of Fe 3 O 4 nanoparticles in the nanocomposite depended on the concentration of Fe 3 O 4 nanoparticles, the viscosity of SU-8 resist, and the mixing time. By tuning these parameters, the most homogeneous magnetic nanocomposite was obtained with a concentration of about 2 wt % of Fe 3 O 4 nanoparticles in SU-8 2005 photoresist for the mixing time of 20 days. The LOPA-based DLW technique was employed to fabricate on demand various magneto-photonic submicrometer structures, which are similar to those obtained without Fe 3 O 4 nanoparticles. The magneto-photonic 2D and 3D structures with sizes as small as 150 nm were created. We demonstrated the strong magnetic field responses of the magneto-photonic nanostructures and their use as micro-actuators when immersed in a liquid solution.

摘要

我们报道了通过低单光子吸收（LOPA）直接激光写入（DLW）技术，在由磁铁矿（Fe₃O₄）纳米颗粒和商用SU-8光刻胶组成的光固化纳米复合材料上制备所需的磁光光子器件。通过将Fe₃O₄纳米颗粒与不同种类的SU-8光刻胶混合来合成磁性纳米复合材料。我们证明了Fe₃O₄纳米颗粒在纳米复合材料中的分散程度取决于Fe₃O₄纳米颗粒的浓度、SU-8光刻胶的粘度以及混合时间。通过调整这些参数，在SU-8 2005光刻胶中Fe₃O₄纳米颗粒浓度约为2 wt%且混合时间为20天时，获得了最均匀的磁性纳米复合材料。基于LOPA的DLW技术被用于按需制造各种磁光光子亚微米结构，这些结构与不含Fe₃O₄纳米颗粒时获得的结构相似。创建了尺寸小至150 nm的磁光光子二维和三维结构。我们展示了磁光光子纳米结构的强磁场响应以及它们在浸入液体溶液时作为微致动器的用途。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c3e/5449986/679f5c4ceb10/nanomaterials-07-00105-g006.jpg

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用于生物医学工程潜在应用的磁光子亚微结构的直接激光写入

Direct Laser Writing of Magneto-Photonic Sub-Microstructures for Prospective Applications in Biomedical Engineering.

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