CORDIS Project
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This project develops a novel 3D printing technique, FloR3D, to create materials with complex microstructures by integrating chemical reactions during the printing process. This allows for the production of materials with tailored properties, including structural coloration and gradient optical features.
Nature has optimized the properties of its building blocks by spatially varying hierarchical microstructures within complex form factors.
Additive manufacturing techniques, in particular direct ink writing (DIW), are promising pathways towards replicating these systems synthetically, leading to printed materials with tarilored materials properties.
However, current DIW techniques do not offer access to out-of-equilibrium materials, greatly limiting printable microstructures.
To overcome this lim…
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United States, Princeton, Nj
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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