4D Printing of Electroactive Materials

Advanced Intelligent Systems Pub Date : 2021-07-08 DOI:10.1002/aisy.202100019

Andrew Y. Chen, E. Pegg, Ailin Chen, Zeqing Jin, Grace X. Gu

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引用次数: 16

Abstract

In recent years, the intersection of 3D printing and “smart” stimuli‐responsive materials has led to the development of 4D printing, an emerging field that is a subset of current additive manufacturing research. By integrating existing printing processes with novel materials, 4D printing enables the direct fabrication of sensors, controllable structures, and other functional devices. Compared to traditional manufacturing processes for smart materials, 4D printing permits a high degree of design freedom and flexibility in terms of printable geometry. An important branch of 4D printing concerns electroactive materials, which form the backbone of printable devices with practical applications throughout biology, engineering, and chemistry. Herein, the recent progress in the 4D printing of electroactive materials using several widely studied printing processes is reviewed. In particular, constituent materials and mechanisms for their preparation and printing are discussed, and functional electroactive devices fabricated using 4D printing are highlighted. Current challenges are also described and some of the many data‐driven opportunities for advancement in this promising field are presented.

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电活性材料的4D打印

近年来，3D打印和“智能”刺激响应材料的交叉导致了4D打印的发展，这是一个新兴领域，是当前增材制造研究的一个子集。通过将现有的打印工艺与新材料相结合，4D打印可以直接制造传感器、可控结构和其他功能设备。与智能材料的传统制造工艺相比，4D打印在可打印几何形状方面具有高度的设计自由度和灵活性。4D打印的一个重要分支涉及电活性材料，它构成了可打印设备的支柱，在整个生物学、工程和化学领域都有实际应用。本文综述了电活性材料4D打印的最新进展，包括几种广泛研究的打印工艺。特别讨论了组成材料及其制备和打印的机理，并重点介绍了使用4D打印制造的功能电活性器件。本文还描述了当前的挑战，并提出了在这个有前途的领域中许多数据驱动的进步机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Intelligent Systems

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