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A cavitation‐engineered 3D sponge network is presented as a kaleidoscope image in its active surface construction. The work of D. V. Andreeva, E. V. Skorb, and co‐workers, presented on page 985, was inspired by the urgent need for time‐ and spaceresponsive biocompatible surfaces for antifouling systems, the constriction of metal implants, stem‐cell research, SERS studies, etc. Adhesion of cells onto...
The design of the 3D architecture surfaces with both space‐ and time‐dependent functionality (cell attraction, pH‐trigged self‐cleaning, antiseptic/disinfection) is in the focus. The innovative story includes: sonochemical surface activation, formation of feedback surface component (pH‐responsible micelles), proof of responsive activity (time resolved cell adhesion and bacteria deactivation) and space...
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