Deconvolution volumetric additive manufacturing.

Volumetric additive manufacturing techniques are a promising pathway to ultra-rapid light-based 3D fabrication. Their widespread adoption, however, demands significant improvement in print fidelity. Currently, volumetric additive manufacturing prints suffer from systematic undercuring of fine features, making it impossible to print objects containing a wide range of feature sizes, precluding effective adoption in many applications.

The effect of the printing temperature on 4D DLP printed pNIPAM hydrogels.

Additive manufacturing (AM), in its little more than 40 years of existence, has already established itself as a technology with enormous potential for several fields, especially the ones that require complex, high resolution, small structures, such as tissue engineering. This field has been especially attracted to the most recent AM evolution, 4D printing, due to its ability to create structures responsive to external stimuli. Among the range of materials that are simultaneously suitable for 4D printing and biological uses, poly(-isopropylacrylamide) (pNIPAM) stands out.