The fabrication of flip-covered plasmonic nanostructure surfaces with enhanced wear resistance

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• 作者：Joo-Yun Jung ; Sang-Keun Sung ; Kwang-Seop Kim ; So-Hui Cheon ; Jihye Lee ; Jun-Hyuk Choi ; ^{junhyuk@kimm.re.kr" class="auth_mail" title="E-mail the corresponding author} ; Eungsug Lee ; ^{eungsug@kimm.re.kr" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Plasmonic resonance ; Nanoimprint ; Transfer ; Tunable photonics
• 刊名：Optics Communications
• 出版年：2017
• 出版时间：1 January 2017
• 年：2017
• 卷：382
• 期：Complete
• 页码：462-469
• 全文大小：3442 K

文摘

Exposed nanostructure surfaces often suffer from external dynamic wear, particularly when used in human interaction, resulting in surface defects and the degradation of plasmonic resonance properties particularly in terms of transmittance extinction rate and peak-to-valley slope. In this work, a method for the fabrication of flip-covered silver nanostructure-arrayed surfaces is shown to enhance wear resistance. Selectively transferred silver dot and silver webbed-trench exposed reference samples were fabricated by metal nanoimprint, and flip-covered samples were created by flipping and bonding reference samples onto a PET film coated with an adhesive layer. The samples' spectral transmittance was measured before and after a dynamic wear test. Some spectral shift was observed due to the change in refractive index of the surrounding media, but this was not as significant as the effects of the other chosen geometry factors. It was found that dynamic wear had a greater effect on the plasmonic resonance behavior of the exposed samples than in those that had been flip-covered. This suggests that flip-covering may be an effective strategy for the protection of plasmonic resonators against dynamic wear. It is expected that the slight variations in spectral transmittance could be compensated through proper tuning of the sample geometry.