Triboelectric Nanogenerators Based on Nanostructured Layers of Zinc Oxide Deposited on Carbon Fabric

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-11-30 DOI:10.3390/jcs7120496

Sergey I. Petrushenko, M. Fijałkowski, Volodymyr R. Kopach, Y. M. Shepotko, K. Adach, S. Dukarov, V. Sukhov, Alina Fedonenko, A. Khrypunova, Natalia P. Klochko

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Abstract

In this work, to obtain textile triboelectric layers for wearable flexible triboelectric nanogenerators (TENGs), we used two modes of growing nanostructured zinc oxide (ZnO) arrays on a carbon fabric (CF) using the automatic Successive Ionic Layer Adsorption and Reaction (SILAR) method. To produce a CF/ZnO_nr triboelectric textile with an array of intergrown short ZnO nanorods, we used a pre-coating of carbon fibers with ZnO seed layers. When the ZnO layer was fabricated by automatic SILAR on bare carbon fabric, we obtained the CF/ZnO_ns textile with an array of interconnected ZnO nanosheets 50–100 nm thick. As a proof of concept, we developed and tested two prototypes of flexible vertical contact–separation mode CF/ZnO_nr/PET/ITO and CF/ZnO_ns/PET/ITO TENGs, in which a gap was involuntarily formed between the smooth PET layer and the woven carbon textile coated with nanostructured ZnO films. In pressing tests with a force of ~5 N (pressure ~33 kPa), the CF/ZnO_ns/PET/ITO TENG created a higher open-circuit voltage up to 30 V and a higher maximum surface charge density of 1.3 μC/m2. In the successive press–release tests, this TENG showed an output voltage of 3.6 V, a current density of 1.47 μA/cm2, and a power density of 1.8 µW/cm2, confirming its effectiveness.

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基于碳织物上沉积的氧化锌纳米结构层的三电纳米发电机

在这项工作中，为了获得用于可穿戴柔性三电纳米发电机（TENGs）的纺织三电层，我们采用了两种模式，利用自动连续离子层吸附和反应（SILAR）方法在碳纤维织物（CF）上生长纳米结构氧化锌（ZnO）阵列。为了生产出具有相互生长的短氧化锌纳米棒阵列的 CF/ZnO_nr 三电织物，我们在碳纤维上预涂覆了一层氧化锌种子层。当通过自动 SILAR 在裸碳纤维上制造 ZnO 层时，我们获得了具有 50-100 nm 厚相互连接的 ZnO 纳米片阵列的 CF/ZnO_ns 纺织品。作为概念验证，我们开发并测试了两种柔性垂直接触分离模式 CF/ZnO_nr/PET/ITO 和 CF/ZnO_ns/PET/ITO TENG 原型，其中光滑的 PET 层和涂有纳米结构 ZnO 薄膜的碳纤维编织物之间不由自主地形成了间隙。在约 5 牛顿力（约 33 千帕压力）的加压测试中，CF/ZnO_ns/PET/ITO TENG 产生了更高的开路电压，最高达 30 V，最大表面电荷密度达 1.3 μC/m2。在连续的新闻发布测试中，这种 TENG 显示出 3.6 V 的输出电压、1.47 μA/cm2 的电流密度和 1.8 µW/cm2 的功率密度，证实了其有效性。

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