Issue 1, 2023

DLP 3D printed hydrogels with hierarchical structures post-programmed by lyophilization and ionic locking

Abstract

Porous hydrogels have been intensively used in energy conversion and storage, catalysis, separation, and biomedical applications. Controlling the porosity of these materials over multiple length scales brings about new functionalities and higher efficiency but is a challenge using the current manufacturing methods. Herein we developed a post-programming method to lock the lyophilized pores of 3D printed hydrogels as an experimental platform towards hierarchically structured pores. 3D printing endows the hydrogels with arbitrary 3D geometries and controllable pores at the millimeter length scale. Lyophilization and ionic crosslinking of the as-printed hydrogel networks are conducted as a post-programming process which results in pores at micrometer length scales beyond the printing resolution. Utilizing this combined manufacturing technology, 3D hydrogel lattices with tunable porosities and mechanical properties can be created, which are further exploited for efficient solar vapor generation.

Graphical abstract: DLP 3D printed hydrogels with hierarchical structures post-programmed by lyophilization and ionic locking

Supplementary files

Article information

Article type
Communication
Submitted
02 Aug 2022
Accepted
20 Oct 2022
First published
21 Oct 2022

Mater. Horiz., 2023,10, 179-186

DLP 3D printed hydrogels with hierarchical structures post-programmed by lyophilization and ionic locking

Z. Sun, Q. Zhao, S. Ma and J. Wu, Mater. Horiz., 2023, 10, 179 DOI: 10.1039/D2MH00962E

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