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Roll-to-roll, high-resolution 3D printing of shape-specific particles.


ABSTRACT: Particle fabrication has attracted recent attention owing to its diverse applications in bioengineering1,2, drug and vaccine delivery3-5, microfluidics6,7, granular systems8,9, self-assembly5,10,11, microelectronics12,13 and abrasives14. Herein we introduce a scalable, high-resolution, 3D printing technique for the fabrication of shape-specific particles based on roll-to-roll continuous liquid interface production (r2rCLIP). We demonstrate r2rCLIP using single-digit, micron-resolution optics in combination with a continuous roll of film (in lieu of a static platform), enabling the rapidly permutable fabrication and harvesting of shape-specific particles from a variety of materials and with complex geometries, including geometries not possible to achieve with advanced mould-based techniques. We demonstrate r2rCLIP production of mouldable and non-mouldable shapes with voxel sizes as small as 2.0 × 2.0 µm2 in the print plane and 1.1 ± 0.3 µm unsupported thickness, at speeds of up to 1,000,000 particles per day. Such microscopic particles with permutable, intricate designs enable direct integration within biomedical, analytical and advanced materials applications.

SUBMITTER: Kronenfeld JM 

PROVIDER: S-EPMC10937373 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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Roll-to-roll, high-resolution 3D printing of shape-specific particles.

Kronenfeld Jason M JM   Rother Lukas L   Saccone Max A MA   Dulay Maria T MT   DeSimone Joseph M JM  

Nature 20240313 8003


Particle fabrication has attracted recent attention owing to its diverse applications in bioengineering<sup>1,2</sup>, drug and vaccine delivery<sup>3-5</sup>, microfluidics<sup>6,7</sup>, granular systems<sup>8,9</sup>, self-assembly<sup>5,10,11</sup>, microelectronics<sup>12,13</sup> and abrasives<sup>14</sup>. Herein we introduce a scalable, high-resolution, 3D printing technique for the fabrication of shape-specific particles based on roll-to-roll continuous liquid interface production (r2rC  ...[more]

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