Inkjet-Printing of Carbon Nano Onions for Sensor Applications in Flexible Printed Electronics

2022 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS) Pub Date : 2022-07-10 DOI:10.1109/fleps53764.2022.9781548

Rui M. R. Pinto, Siva Sankar Nemala, Mohammadmahdi Faraji, A. Capasso, K. Vinayakumar

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引用次数: 4

Abstract

Flexible and printed electronics can profit from novel 2D- and nano-materials for specific chemical, mechanical and electrical functionality. Here, carbon nano onions (CNO) are deposited on flexible polymer substrates using piezoelectric drop-on-demand inkjet printing. First, the drop generation conditions for the low-viscosity (~1.2 cP) ethanol-based CNO suspensions are optimized for best resolution and line continuity. The CNO material can be deposited in multiple printing passes without requiring intermediate curing between layers and without degradation of the resolution. The printed structures are inspected by optical microscopy and profilometry. Electrical characterization is performed to obtain the electrical resistivity of the inkjet-printed CNO material (593 ± 79 Ω.m), the temperature coefficient of resistance (-0.896 ±0.238 % ºC-1) and the relative humidity dependency. The printed CNO devices are suitable for temperature compensation, humidity sensing, gas sensing, and possibly other applications.

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碳纳米洋葱喷墨打印在柔性印刷电子传感器中的应用

柔性和印刷电子产品可以从用于特定化学、机械和电气功能的新型二维和纳米材料中获益。在这里，碳纳米洋葱(CNO)被沉积在柔性聚合物基板上，使用压电滴按需喷墨打印。首先，优化了低粘度(~1.2 cP)乙醇基CNO悬浮液的液滴生成条件，以获得最佳的分辨率和生产线连续性。CNO材料可以在多个打印通道中沉积，而不需要层之间的中间固化，也不会降低分辨率。用光学显微镜和轮廓术检查打印的结构。电学表征得到了喷墨打印CNO材料的电阻率(593±79 Ω.m)、电阻温度系数(-0.896±0.238 %ºC-1)和相对湿度依赖关系。印刷的CNO器件适用于温度补偿，湿度传感，气体传感以及可能的其他应用。

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2022 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS)

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