Towards Autonomous Materials–Challenges in Chemical Communication

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY
P. Jarne de Jong, Foteini Trigka, Dr. Michael M. Lerch
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Abstract

Coordination of functions in multi-body or multi-component systems requires communication among its parts and is a prerequisite for achieving complex tasks. While electromagnetic (network) communication provides a key ingredient for modern robotics, its molecular equivalent is largely missing for soft robots. With advancements in programmed cargo release, DNA strand-displacement reactions, enzymatic cascades, and genetic circuits, budding solutions to such chemical network communication have emerged with the potential to drive function in soft machines. In order for such chemical communication to be useful, however, new control concepts, (orthogonal) communication protocols, and molecular solutions should be found. Herein, we provide a critical perspective on the current state-of-the-art chemical communication and identify key challenges towards autonomous soft materials, including signal processing, dealing with noise, switching signaling modalities, and limitations in time and length scales that determine material design. Building on an emerging body of examples, we illustrate gaps, synergies, and new concepts that may provide possible solutions to achieve standardized and reliable molecular information exchange for regulating (soft) robotic function.

Abstract Image

迈向自主材料--化学交流中的挑战
多体或多组件系统的功能协调需要各部分之间的通信,这是完成复杂任务的先决条件。电磁(网络)通信为现代机器人技术提供了一个关键要素,但软体机器人在很大程度上却缺少与之对应的分子通信。随着在程序化货物释放、DNA 链置换反应、酶级联和遗传电路方面取得的进展,这种化学网络通信的萌芽方案已经出现,并有可能驱动软机器的功能。然而,为了使这种化学通讯发挥作用,应该找到新的控制概念、(正交)通讯协议和分子解决方案。在此,我们将从批判性的角度探讨当前最先进的化学通讯技术,并指出实现自主软材料所面临的关键挑战,包括信号处理、噪音处理、信号模式切换以及决定材料设计的时间和长度尺度限制。在新出现的大量实例基础上,我们说明了差距、协同作用和新概念,这些都可能为实现标准化和可靠的分子信息交换以调节(软)机器人功能提供可能的解决方案。
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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CiteScore
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