蜂群(蜜蜂)
群体行为
群集运动
纳米技术
材料科学
生物系统
计算机科学
生化工程
生物
生态学
人工智能
工程类
细菌
生物膜
遗传学
群体感应
作者
Wanyuan Li,Dapeng Lei,Jiawen He,Zhenqi Huang,Si-You Xiao,Leyan Ou,Zixian Liang,Kunfeng Liu,Ze Xiong,Jizhuang Wang,Jinyao Tang,Dan Li
标识
DOI:10.1002/adma.202502538
摘要
Abstract Swarming behavior often enables systems to achieve intelligent responses that surpass the capabilities of individual components, allowing for complex tasks to be accomplished. Despite significant advances in active swarm research, achieving precise control over swarm responsiveness remains a challenge. In this study, a light‐controlled chemical communication‐mediated swarming system through integrating the ion‐exchange and light decomposition reactions to emulate predator‐prey interactions is designed. In this system, ion exchange resin particles (acting as “predators”) actively approach and aggregate silver phosphate (Ag 3 PO 4 ) nanoparticles (acting as “prey”), which in turn exhibit light‐triggered escape responses driven by photodecomposition‐induced ionic gradients. These swarms exhibit a range of novel, light‐modulated dynamic behaviors, including enhanced motility, reversible aggregation, repulsion, and distinct reactive states. These behaviors provide valuable insights into active swarm dynamics. Furthermore, the synergistic effects of the collective swarming, active interactions, and light‐induced Ag⁺ production establish a robust antibacterial platform capable of rapid and efficient bacterial eradication. This intelligent swarm design presents new possibilities for the development of multifunctional, responsive swarms, offering valuable applications in environmental treatment and beyond.
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