☆ 3.8 Review

Stimuli-responsive polymer-based bioinspired soft robots

MICRO AND NANO SYSTEMS LETTERS (2023)

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Summary: Three-dimensional bioprinting technology has attracted significant interest, especially in the medical industry, due to its breakthroughs in synthesizing biomaterials and its potential in replacing damaged tissues and organs. This review paper provides an overview of the current advancements, opportunities, and applications of 3D bioprinting, with a focus on artificial organ development and cancer research.

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Summary: The development of smart soft robots with sensing and shape-deforming capabilities is critical, and magnetic composites provide a new avenue for this. Inspired by sea anemones, the developed soft robot can sense and deform in water to avoid being swept away by water flow.

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Summary: Soft robots provide safety, adaptation to environment, shock absorption, and protection against mechanical impacts due to their intrinsic compliance. However, the soft polymers used for construction are susceptible to damage. A potential economic and ecological solution is to use self-healing polymers for future soft robotic systems, with literature already assessing and comparing different types of self-healing polymers for this purpose.

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