Mechanically alignable and all-dispenser-printable device design platform for carbon nanotube-based soft-deformable photo-thermoelectric broadband imager sheets

IF 12.3 1区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

npj Flexible Electronics Pub Date : 2025-05-08 DOI:10.1038/s41528-025-00419-2

Minami Yamamoto, Daiki Sakai, Yuto Matsuzaki, Leo Takai, Yukito Kon, Yuto Aoshima, Noa Izumi, Naoko Hagiwara, Hayato Hamashima, Daiki Shikichi, Junyu Jin, Qi Zhang, Kohei Murakami, Yuya Kinoshita, Satsuki Yasui, Norika Takahashi, Hajime Nishiyama, Yukio Kawano, Kou Li

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引用次数: 0

Abstract

While photo-thermoelectric (PTE) sensors and their ultrabroadband monitoring facilitate non-destructive testing, their conventional fabrication is insufficient for high-yield integration. Specifically, PTE devices faced challenges in their crucial spatial-misalignment for separate fabrication processes per constituent. Herein, this work demonstrates mechanically alignable and all-dispenser-printable integration of carbon nanotube (CNT) functional PTE sensor devices by designing them with solution-processable ink-materials. This technique first accurately prints CNT channels, essential in PTE conversion, using higher-concentration inks, and integrates remaining constituents (dopants and conductive pastes) into single device structures at high-yield. This work further demonstrates that employing higher-concentration CNT inks, suitable for mechanical channel printing, also designs sensitive PTE sensors. These sensors serve stably as integrated devices on diverse functional substrates, facilitating ubiquitous non-destructive monitoring depending on features. Therefore, this work designs such CNT PTE integrated devices and the associated functional inspection appropriately for structures, sizes, and external environments (e.g., temperature and humidity) of monitoring targets.

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基于碳纳米管的软变形光热电宽带成像仪片的机械校准和全点胶打印装置设计平台

虽然光热电（PTE）传感器及其超宽带监测有助于无损检测，但其传统制造方法不足以实现高产量集成。具体来说，PTE器件面临着每个组件单独制造工艺的关键空间错位的挑战。在此，本研究通过使用溶液可加工的油墨材料设计碳纳米管（CNT）功能PTE传感器器件，展示了机械校准和全点胶打印集成。该技术首先使用高浓度油墨精确打印碳纳米管通道，这在PTE转换中至关重要，并以高产量将剩余成分（掺杂剂和导电浆料）集成到单个器件结构中。这项工作进一步证明，采用高浓度碳纳米管油墨，适用于机械通道印刷，也可以设计敏感的PTE传感器。这些传感器作为集成器件稳定地服务于各种功能基板上，根据特征促进无处不在的非破坏性监测。因此，本工作针对监测目标的结构、尺寸和外部环境（如温度和湿度）设计了这种碳纳米管PTE集成装置和相关的功能检查。

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来源期刊

npj Flexible Electronics Multiple-

CiteScore

17.10

自引率

4.80%

发文量

审稿时长

6 weeks

期刊介绍： npj Flexible Electronics is an online-only and open access journal, which publishes high-quality papers related to flexible electronic systems, including plastic electronics and emerging materials, new device design and fabrication technologies, and applications.