3D/4D printed versatile fibre‐based wearables for embroidery, AIE‐chemosensing, and unidirectional draining-Reference-Cited by-同舟云学术

3D/4D printed versatile fibre‐based wearables for embroidery, AIE‐chemosensing, and unidirectional draining

Published:2024-02-08 Issue:3 Volume:5 Page:
ISSN:2692-4560
Container-title:Aggregate
language:en
Short-container-title:Aggregate

Author:

Liu Pengchao¹²,Chu Chengshengze¹,Qiu Wenqi³⁴,Cheng Lizi¹,Gu Jialun¹,Mao Zhengyi¹⁵,Zhao Zheng⁶^ORCID,He Xinyuan⁷^ORCID,Liu Guo¹,Peng Chen⁸^ORCID,Man Kwan⁴,Tang Ben Zhong⁶,Lu Jian¹²⁵⁹

Affiliation:

1. Department of Mechanical Engineering City University of Hong Kong Kowloon Hong Kong China

2. CityU‐Shenzhen Futian Research Institute Shenzhen China

3. Department of Plastic and Aesthetic Center The First Affiliated Hospital, College of Medicine, Zhejiang University Hangzhou China

4. Department of Surgery School of Clinical Medicine, LKS Faculty of Medicine, The University of Hong Kong Pokfulam Hong Kong China

5. Centre for Advanced Structural Materials City University of Hong Kong Shenzhen Research Institute, Greater Bay Joint Division, Shenyang National Laboratory for Materials Science Shenzhen China

6. School of Science and Engineering, Shenzhen Institute of Aggregate Science and Technology, The Chinese University of Hong Kong Shenzhen Guangdong China

7. Department of Chemistry The Hong Kong University of Science and Technology Kowloon Hong Kong China

8. Department of Radiology Shanghai Public Health Clinical Center, Fudan University Shanghai China

9. Laboratory of Nanomaterials and Nanomechanics, City University of Hong Kong Hong Kong China

Abstract

AbstractFibre‐based wearables for embroidery, chemosensing, and biofluid's unidirectional draining with good flexibility, tunability, and designability drive technological advance. However, synthetic polymer fibres are non‐degradable, threatening the environment and human health. Herein, we have developed versatile microfibre‐based wearables by combining many advantages in one platform of biodegradable polylactic acid (PLA) and melt electrowriting strategy. Diverse potential applications of PLA wearables are achieved by flexibly designing their printing files, components and structures. Three‐dimensional printing files are generated from two‐dimensional images to fabricate ‘embroidery‐like’ patterns. PLA/aggregation‐induced emission fluorogens (AIE) chemosensors exhibit colorimetric and fluorescent colour changes upon exposure to amine vapours. Janus PLA‐cotton textiles with a hydrophobic/hydrophilic structure could facilitate unidirectional draining of sweats which is favourable for the management of temperature and humidity on the surface of skin. The proposed platform can not only broaden the design possibilities in 3D/4D printing but also offer wide potential applications for functional wearables.

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/agt2.521

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