SEOULTECH Researchers Develop Smarter, More Controllable Hydrogel Pores
Researchers develop a new origami-inspired folding strategy for hydrogel pores, enabling unprecedented control
Hydrogels are soft, water-rich polymeric materials that can swell or shrink in response to environmental stimuli. This ability to change shape makes them valuable in miniaturized devices for flexible electronics, microrobotics, intelligent surfaces, and biomedical applications such as drug delivery. For example, hydrogel pores can be engineered to trap and release tiny drug particles on demand.
However, most current hydrogel pores use circular designs, which limit control over shape change and lead to unpredictable, slow actuation. They often close unevenly and recover poorly, reducing their precision and reliability.
To address these challenges, a research team led by Professor
The proposed strategy uses polygonal pores with fixed boundaries and predetermined hinges for controlled pore closure and restoration. Upon swelling, the facets of the polygonal pores bulge inward toward the center of the pore along specific directions guided by the predetermined hinges at the vertices, ultimately closing the pore. When the hydrogel shrinks, the facets are restored along the same paths, achieving predictable restoration. Additionally, the extent of pore closure can be controlled by changing the polygonal shape and fine-tuning the geometric properties. Importantly, the polygonal pores retain 90% of their original shape after repeated swelling-shrinking cycles, demonstrating excellent reliability.
The researchers applied this strategy to achieve pH-triggered release of microparticles, where the pores release microparticles in a staged manner, based on the pH of the environment. "This pH responsive mechanism is highly useful for drug delivery applications, where drug release is staged and targeted to specific regions marked by pH fluctuations," says
The researchers also explored information encryption using these pores by creating a mixed matrix of square and circular hydrogel pores, containing fluorescent particles. The difference in closing behavior between the two shapes allowed them to hide or reveal patterns, enabling one-time-use encryption.
"Our strategy can be integrated into drug delivery systems for achieving high spatial and temporal precision, improving therapeutic outcomes while minimizing side effects," highlights
We hope this innovative facet-driven folding strategy is adopted into more hydrogel devices, enhancing both their controllability and reliability.
Reference
Title of original paper: Facet-driven folding for precise control of hydrogel pore actuation
Journal: Matter
DOI: 10.1016/j.matt.2025.102248
About the institute Seoul National University of Science and Technology (SEOULTECH)
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SOURCE Seoul National University of Science and Technology (SEOULTECH)
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