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Nanobowl array fabrication via conglutination process based on thiol-ene polymer
Zhang, Man1; Xia, Liangping2; Deng, Qiling1; Shi, Lifang; Cao, Axiu; Pang, Hui; Hu, Song
Source PublicationIEEE Photonics Journal
Volume7Issue:4Pages:4501006
2015
Language英语
ISSN1943-0655
DOI10.1109/JPHOT.2015.2456637
Indexed BySCI ; Ei
WOS IDWOS:000361069900017
Subtype期刊论文
AbstractThe technique to fabricate nanostructures with high resolution is of crucial importance to nanosciences and nanotechnology. This paper presented a nonconventional method to fabricate metallic nanobowl arrays via the conglutination process, which relied on the high adhesive material to 'stick' nanostructures. The ultraviolet (UV)-curable thiol-ene had low viscosity and was cured under UV light to form a cross-linked polymer with high Young's modulus and high surface energy via 'click chemistry,' which was used as the adhesive material to firmly stick nanostructures from the mold. By using the method, a self-assembly polystyrene (PS) sphere template with a metallic layer was stuck by the cross-linked thiol-ene polymer from the substrate. After removing the PS spheres, the metallic nanobowl structure with the thiol-ene substrate was achieved. In this paper, we fabricated gold nanobowl arrays composed of nanoheaves with the average diameter of ca. 60 nm between nanobowls, which verified the feasibility of the fabrication method. © 2009-2012 IEEE.; The technique to fabricate nanostructures with high resolution is of crucial importance to nanosciences and nanotechnology. This paper presented a nonconventional method to fabricate metallic nanobowl arrays via the conglutination process, which relied on the high adhesive material to 'stick' nanostructures. The ultraviolet (UV)-curable thiol-ene had low viscosity and was cured under UV light to form a cross-linked polymer with high Young's modulus and high surface energy via 'click chemistry,' which was used as the adhesive material to firmly stick nanostructures from the mold. By using the method, a self-assembly polystyrene (PS) sphere template with a metallic layer was stuck by the cross-linked thiol-ene polymer from the substrate. After removing the PS spheres, the metallic nanobowl structure with the thiol-ene substrate was achieved. In this paper, we fabricated gold nanobowl arrays composed of nanoheaves with the average diameter of ca. 60 nm between nanobowls, which verified the feasibility of the fabrication method. © 2009-2012 IEEE.
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Cited Times:1[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://ir.ioe.ac.cn/handle/181551/7321
Collection微电子装备总体研究室(四室)
Affiliation1. Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu, China
2. Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, Chongqing, China
Recommended Citation
GB/T 7714
Zhang, Man,Xia, Liangping,Deng, Qiling,et al. Nanobowl array fabrication via conglutination process based on thiol-ene polymer[J]. IEEE Photonics Journal,2015,7(4):4501006.
APA Zhang, Man.,Xia, Liangping.,Deng, Qiling.,Shi, Lifang.,Cao, Axiu.,...&Hu, Song.(2015).Nanobowl array fabrication via conglutination process based on thiol-ene polymer.IEEE Photonics Journal,7(4),4501006.
MLA Zhang, Man,et al."Nanobowl array fabrication via conglutination process based on thiol-ene polymer".IEEE Photonics Journal 7.4(2015):4501006.
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