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The requirement of nontoxic and versatile manufacturing frameworks for biologically relevant applications has imposed significant constraints on the choice of functional materials and the complementary fabrication tools. In this context, silk is actively studied, thanks to its mechanical robustness, biocompatibility, wide availability, aqueous processing conditions, and ease of functionalization....
In article number 1802953, Tiger H. Tao and co‐workers report a silk‐based water lithography technique. This work introduces a wafer‐scale, all‐water‐based, chemical‐free, biopatterning method that allows for rapid prototyping of biologically functional devices and interfaces in an extremely fast fashion, and importantly, in ambient conditions, on both planar and curved surfaces.
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