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Soft acoustic metamaterials that embed soft materials in a host media have promising applications in aqueous environments. However, the preparation of soft metamaterials under water and realization of low‐frequency soft acoustic metamaterials remains a challenge. By combining 3D printing technology and surface hydrophobic properties, this work presents a general approach to construct 3D soft acoustic...
In article number 1906984, Zhandong Huang, Yanlin Song, and co‐workers develop a general method for fabricating soft acoustic metamaterials based on bubble architectures by combining 3D printing and surface hydrophobic properties. Accordingly, low‐frequency broadband locally resonant metamaterials can be achieved. Moreover, a water‐to‐air ultratransmission metasurface is prepared by patterning a layer...
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