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Porosity is an essential feature in a wide range of applications that combine light weight with high surface area and tunable density. Porous materials can be easily prepared with a vast variety of chemistries using the salt‐leaching technique. However, this templating approach has so far been limited to the fabrication of structures with random porosity and relatively simple macroscopic shapes. Here,...
In article number 1903783, Martina Cihova, André R. Studart, Jörg F. Löffler, and co‐workers present a rheologically engineered salt paste as a sacrificial 3D‐printing ink for the structuring of porous magnesium (Mg) scaffolds. The ability to structure the porosity in Mg is highly attractive for its use as a resorbable bone replacement because it enables spatial tuning of the pore distribution to...
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