用于 TEMPO 氧化纳米纤维素上高性能柔性电极的皱纹 TiNAgNW 纳米复合材料

Nanomaterials Pub Date : 2024-07-10 DOI:10.3390/nano14141178

L. Gence, Franck Quero, Miguel Escalona, Robert Wheatley, Birger Seifert, Donovan Diaz-Droguett, M. J. Retamal, Sascha Wallentowitz, U. Volkmann, Heman Bhuyan

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摘要

在本研究中，我们提出了一种制造半透明电极的新方法，将银纳米线（AgNW）与氮化钛（TiN）层结合在一起，制成具有优异机电特性的导电纳米复合涂层。这些纳米复合材料采用等离子体增强脉冲激光沉积（PE-PLD）技术，在低温（低于 200 ∘C）下沉积在纤维素纳米纸（CNP）上。重复弯曲测试表明，在 TiN 涂层中加入 AgNW 能显著增强微观结构，与商用 PET/ITO 基底相比，电极的机电稳健性最多可提高四个数量级。此外，还可以通过调整 AgNW 网络密度和 TiN 合成温度来优化光导率和电导率。我们的研究结果还表明，与裸 AgNW 涂层相比，纳米复合电极在空气中表现出更高的稳定性和更优越的附着力。

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Wrinkled TiNAgNW Nanocomposites for High-Performance Flexible Electrodes on TEMPO-Oxidized Nanocellulose

In this study, we present a novel method for fabricating semi-transparent electrodes by combining silver nanowires (AgNW) with titanium nitride (TiN) layers, resulting in conductive nanocomposite coatings with exceptional electromechanical properties. These nanocomposites were deposited on cellulose nanopaper (CNP) using a plasma-enhanced pulsed laser deposition (PE-PLD) technique at low temperatures (below 200 ∘C). Repetitive bending tests demonstrate that incorporating AgNW into TiN coatings significantly enhances the microstructure, increasing the electrode’s electromechanical robustness by up to four orders of magnitude compared to commercial PET/ITO substrates. Furthermore, the optical and electrical conductivities can be optimized by adjusting the AgNW network density and TiN synthesis temperature. Our results also indicate that the nanocomposite electrodes exhibit improved stability in air and superior adhesion compared to bare AgNW coatings.

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Nanomaterials

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