Flexible Soft-Printed Polymer Films with Tunable Plasmonic Properties

IF 5.7 Q2 CHEMISTRY, PHYSICAL ACS Materials Au Pub Date : 2023-09-05 DOI:10.1021/acsmaterialsau.3c00023

Aleksei Solomonov, Anna Kozell, Alexander B. Tesler, Iddo Pinkas, Seth Walensky and Ulyana Shimanovich*,

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引用次数: 1

Abstract

Noble metal nanoparticles (NPs) and particularly gold (Au) have become emerging materials in recent decades due to their exceptional optical properties, such as localized surface plasmons. Although multiple and relatively simple protocols have been developed for AuNP synthesis, the functionalization of solid surfaces composed of soft matter with AuNPs often requires complex and multistep processes. Here we developed a facile approach for functionalizing soft adhesive flexible films with plasmonic AuNPs. The synthetic route is based on preparing Au nanoislands (AuNI) (ca. 2–300 nm) on a glass substrate followed by hydrophobization of the functionalized surface, which in turn, allows efficient transfer of AuNIs to flexible adhesive films via soft-printing tape lithography. Here we show that the AuNI structure remained intact after the hydrophobization and soft-printing procedures. The AuNI-functionalized flexible films were characterized by various techniques, revealing unique characteristics such as tunable localized plasmon resonance and Raman enhancement factors beneficial for chemical and biological sensing applications.

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具有可调谐等离子体特性的柔性软印聚合物薄膜

贵金属纳米粒子(NPs)，特别是金(Au)，由于其特殊的光学性质，如局部表面等离子体，在最近几十年成为新兴材料。虽然已经开发了多种相对简单的AuNP合成方案，但软物质与AuNP组成的固体表面的功能化往往需要复杂的多步骤过程。在这里，我们开发了一种用等离子体aunp功能化软粘接柔性薄膜的简便方法。该合成路线是基于在玻璃基板上制备Au纳米岛(aui)(约2-300 nm)，然后对功能化表面进行疏水性处理，从而通过软印刷带光刻技术将Au纳米岛有效地转移到柔性胶膜上。在这里，我们证明了AuNI结构在疏水和软打印程序后保持完整。利用各种技术对auni功能化柔性薄膜进行了表征，揭示了其独特的特性，如可调谐的局部等离子体共振和有利于化学和生物传感应用的拉曼增强因子。

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来源期刊

ACS Materials Au 材料科学-

CiteScore

5.00

自引率

0.00%

发文量

期刊介绍： ACS Materials Au is an open access journal publishing letters articles reviews and perspectives describing high-quality research at the forefront of fundamental and applied research and at the interface between materials and other disciplines such as chemistry engineering and biology. Papers that showcase multidisciplinary and innovative materials research addressing global challenges are especially welcome. Areas of interest include but are not limited to:Design synthesis characterization and evaluation of forefront and emerging materialsUnderstanding structure property performance relationships and their underlying mechanismsDevelopment of materials for energy environmental biomedical electronic and catalytic applications