1. Z. Deng, K. Li, A. Priimagi, H. Zeng*, Light-steerable locomotion using zero-energy modes, Nat. Mater. 2024, 2024, 23, 1728.
Groundbreaking: In 1976, in Purcell’s seminal lecture note about swimming in low Reynolds number, he envisaged an imaginary toroidal structure for enhanced swimming efficiency, as shown in the Figure on the right. Nearly 50 years have passed, but such low-Reynolds-number swimmer has not yet been demonstrated in synthetic systems, or found in nature. This paper reports the first achievement of toroidal swimmer in Stokes regime, the imaginary swimmer proposed by Purcell 50 years ago.
2. H. Guo, K. Li*, J. Yang, D. Li, F. Liu, H. Zeng*, Light-mediated communication in responsive materials ranging from individual self-oscillators to feedback-driven network (accept in Nature Communications)
Groundbreaking: First demonstration of light communication between non-equilibrium material pieces. This article presents the key concept of the project.
3. J. Yang, H. Pi, Z. Deng, H. Guo, W. Shou, H. Zhang, H. Zeng*, Feedback Regulated Opto-Mechanical Soft Robotic Actuators. Cell Reports Physical Science, 2025, 6, 102686.
It offers a general design guideline for attaining optical feedback in photomechanically responsive materials.