Fabrication of hydrophobic structures on coronary stent surface based on direct three-beam laser interference lithography

To solve the problems with coronary stent implantation, coronary artery stent surface was directly modified by three-beam laser interference lithography through imitating the water-repellent surface of lotus leaf, and uniform mi- cro-nano structures with the controllable period were fabricated. The...

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Published in	Optoelectronics letters Vol. 12; no. 3; pp. 233 - 236
Main Author	高龙岳周玮琦王渊博王斯琦白冲李仕明刘斌王珺楠崔承坤李永亮
Format	Journal Article
Language	English
Published	Tianjin Tianjin University of Technology 01.05.2016
Subjects	Lasers Optical Devices Optics Photonics Physics Physics and Astronomy 光刻技术冠状动脉支架制备扫描电子显微镜水结构激光干涉激光能量密度疏水表面 A
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ISSN	1673-1905 1993-5013
DOI	10.1007/s11801-016-6023-4

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Abstract	To solve the problems with coronary stent implantation, coronary artery stent surface was directly modified by three-beam laser interference lithography through imitating the water-repellent surface of lotus leaf, and uniform mi- cro-nano structures with the controllable period were fabricated. The morphological properties and contact angle （CA） of the microstructure were measured by scanning electron microscope （SEM） and CA system. The water repellency of stent was also evaluated by the contact and then separation between the water drop and the stent. The results show that the close-packed concave structure with the period of about 12 μm can be fabricated on the stent surface with special parameters （incident angle of 3°, laser energy density of 2.2 J.cm2 and exposure time of 80 s） by using the three-beam laser at 1 064 nm, and the structure has good water repellency with CA of 120°.
AbstractList	To solve the problems with coronary stent implantation, coronary artery stent surface was directly modified by three-beam laser interference lithography through imitating the water-repellent surface of lotus leaf, and uniform mi- cro-nano structures with the controllable period were fabricated. The morphological properties and contact angle （CA） of the microstructure were measured by scanning electron microscope （SEM） and CA system. The water repellency of stent was also evaluated by the contact and then separation between the water drop and the stent. The results show that the close-packed concave structure with the period of about 12 μm can be fabricated on the stent surface with special parameters （incident angle of 3°, laser energy density of 2.2 J.cm2 and exposure time of 80 s） by using the three-beam laser at 1 064 nm, and the structure has good water repellency with CA of 120°. To solve the problems with coronary stent implantation, coronary artery stent surface was directly modified by three-beam laser interference lithography through imitating the water-repellent surface of lotus leaf, and uniform micro-nano structures with the controllable period were fabricated. The morphological properties and contact angle (CA) of the microstructure were measured by scanning electron microscope (SEM) and CA system. The water repellency of stent was also evaluated by the contact and then separation between the water drop and the stent. The results show that the close-packed concave structure with the period of about 12 μm can be fabricated on the stent surface with special parameters (incident angle of 3°, laser energy density of 2.2 J·cm −2 and exposure time of 80 s) by using the three-beam laser at 1 064 nm, and the structure has good water repellency with CA of 120°.
Author	高龙岳周玮琦王渊博王斯琦白冲李仕明刘斌王珺楠崔承坤李永亮
AuthorAffiliation	School of Optoelectronic Engineering, Changchun University of Science and Technology, Changchun 130022, China The Second Hospital of Jilin University, Changchun 130041, China
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Notes	To solve the problems with coronary stent implantation, coronary artery stent surface was directly modified by three-beam laser interference lithography through imitating the water-repellent surface of lotus leaf, and uniform mi- cro-nano structures with the controllable period were fabricated. The morphological properties and contact angle （CA） of the microstructure were measured by scanning electron microscope （SEM） and CA system. The water repellency of stent was also evaluated by the contact and then separation between the water drop and the stent. The results show that the close-packed concave structure with the period of about 12 μm can be fabricated on the stent surface with special parameters （incident angle of 3°, laser energy density of 2.2 J.cm2 and exposure time of 80 s） by using the three-beam laser at 1 064 nm, and the structure has good water repellency with CA of 120°. 12-1370/TN GAO Long-yue , ZHOU Wei-qi , WANG Yuan-bo , WANG Si-qi , BAI Chong, LI Shi-ming , LlU Bin, WANG Jun-nan , CUl Cheng-kun , and LI Yong-liang 1. School of Optoelectronic Engineering, Changchun University of Science and Technology, Changchun 130022, China 2. The Second Hospital of Jilin University, Changchun 130041, China
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SubjectTerms	Lasers Optical Devices Optics Photonics Physics Physics and Astronomy 光刻技术冠状动脉支架制备扫描电子显微镜水结构激光干涉激光能量密度疏水表面
Title	Fabrication of hydrophobic structures on coronary stent surface based on direct three-beam laser interference lithography
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