Volpe, Giorgio;
Araujo, Nuno AM;
Guix, Maria;
Miodownik, Mark;
Martin, Nicolas;
Alvarez, Laura;
Simmchen, Juliane;
... Armstrong, Rachel; + view all
(2025)
Roadmap for Animate Matter.
Journal of Physics: Condensed Matter
, 37
(33)
, Article 333501. 10.1088/1361-648X/adebd3.
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Abstract
Humanity has long sought inspiration from nature to innovate materials and devices. As science advances, nature-inspired materials are becoming part of our lives. Animate materials, characterized by their activity, adaptability, and autonomy, emulate properties of living systems. While only biological materials fully embody these principles, artificial versions are advancing rapidly, promising transformative impacts in the circular economy, health and climate resilience within a generation. This roadmap presents authoritative perspectives on animate materials across different disciplines and scales, highlighting their interdisciplinary nature and potential applications in diverse fields including nanotechnology, robotics and the built environment. It underscores the need for concerted efforts to address shared challenges such as complexity management, scalability, evolvability, interdisciplinary collaboration, and ethical and environmental considerations. The framework defined by classifying materials based on their level of animacy can guide this emerging field to encourage cooperation and responsible development. By unravelling the mysteries of living matter and leveraging its principles, we can design materials and systems that will transform our world in a more sustainable manner.
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