Broadband Infrared Carbon Nanotube Linear Photodetector Arrays

Abstract

Carbon nanotubes (CNTs) possess exceptional optoelectronic properties, including broadband absorption and high absorption coefficients, making them promising candidates for photodetector applications. However, conventional designs often rely on single or aligned nanotubes, which restrict device scalability and require complex fabrication techniques. In this work, we address these limitations by utilizing CNT-suspended solutions to fabricate large-area photodetectors based on CNT networks via vacuum filtration and direct laser scribing. CNT networks are uniformly formed onto low-thermal-conductance polymeric filter papers that serve as substrates and mitigate the need for suspended structures, reducing the fabrication complexity and cost. The CNT films are patterned into single devices and 49-pixel linear arrays by using a laser-cutting process, enabling scalable and cost-effective production. The resulting devices operate as bolometers and exhibit broad spectral sensitivity extending from visible to midwave infrared, showing stable operation at room temperature. We further demonstrate proof-of-concept IR imaging using linear arrays.

Affiliated Institutions

• University of California, Berkeley US
• Tokyo University of Information Sciences JP
• The University of Melbourne AU
• Lawrence Berkeley National Laboratory US
• Kavli Energy NanoScience Institute US
• The University of Tokyo JP
• RMIT University AU
• University of California System US
• MIT University MK

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