用于灵敏可穿戴压力传感器的冰晶模板化“手风琴状”纤维素纳米纤维/MXene复合气凝胶

Ice-Crystal-Templated "Accordion-Like" Cellulose Nanofiber/MXene Composite Aerogels for Sensitive Wearable Pressure Sensors.

作者信息

Xu Wangwang, Wu Qinglin, Gwon Jaegyoung, Choi Jin-Woo

机构信息

School of Renewable Natural Resources, Louisiana State University AgCenter, Baton Rouge, Louisiana 70803, United States.

Forest Products Department, National Institute of Forest Science, 57 Hoegiro, Dongdaemun-gu, Seoul 02455, Korea.

出版信息

ACS Sustain Chem Eng. 2023 Feb 13;11(8):3208-3218. doi: 10.1021/acssuschemeng.2c05597. eCollection 2023 Feb 27.

DOI:10.1021/acssuschemeng.2c05597

PMID:36874192

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9976353/

Abstract

Exfoliated MXene nanosheets are integrated with cellulose nanofibers (CNFs) to form composite aerogels with high electric conductivity. The combination of CNFs and MXene nanosheets forms a unique "accordion-like" hierarchical architecture with MXene-CNF pillared layers through ice-crystal templating. Benefiting from the special "layer-strut" structure, the MXene/CNF composite aerogels have low density (50 mg/cm), excellent compressibility and recoverability, as well as superior fatigue resistance (up to 1000 cycles). When being used as a piezoresistive sensor, the composite aerogel exhibits high sensitivity upon different strains, stable sensing performance with various compressive frequencies, broad detection range, and quick responsiveness (0.48 s). Moreover, the piezoresistive sensors are shown to have an excellent real-time sensing ability for human motions such as swallowing, arm bending, walking, and running. The composite aerogels also have a low environmental impact with the natural biodegradability of CNFs. The designed composite aerogels can serve as a promising sensing material for developing next-generation sustainable and wearable electronic devices.

摘要

剥离的MXene纳米片与纤维素纳米纤维（CNF）结合，形成具有高电导率的复合气凝胶。通过冰晶模板法，CNF和MXene纳米片的结合形成了独特的“手风琴状”分层结构，其中MXene-CNF柱撑层。得益于特殊的“层-支柱”结构，MXene/CNF复合气凝胶具有低密度（50 mg/cm）、优异的压缩性和可恢复性，以及卓越的抗疲劳性（高达1000次循环）。当用作压阻传感器时，复合气凝胶在不同应变下表现出高灵敏度，在各种压缩频率下具有稳定的传感性能，检测范围宽，响应迅速（0.48 s）。此外，压阻传感器对吞咽、手臂弯曲、行走和跑步等人体运动具有出色的实时传感能力。由于CNF具有天然的生物可降解性，复合气凝胶对环境的影响也较小。所设计的复合气凝胶可作为一种有前途的传感材料，用于开发下一代可持续和可穿戴电子设备。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b65/9976353/6ebf71f20f9e/sc2c05597_0002.jpg

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用于灵敏可穿戴压力传感器的冰晶模板化“手风琴状”纤维素纳米纤维/MXene复合气凝胶

Ice-Crystal-Templated "Accordion-Like" Cellulose Nanofiber/MXene Composite Aerogels for Sensitive Wearable Pressure Sensors.

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