PEER-REVIEWED PUBLICATION

2025

Hybrid Zwitterionic Hydrogels with Encoded Differential Swelling and Programmed Deformation for Small-Scale Robotics

Bouzari N, Nasseri R, et al.

Small Methods

University of Waterloo, University of Stuttgart

RESEARCH SUMMARY

This work introduces a zwitterionic/acrylate hybrid hydrogel system with encoded differential swelling and anisotropic elasticity for programmable deformation in small-scale soft robotics. By combining 3-dimethyl(methacryloyloxyethyl) ammonium propanesulfonate (DMAPS) and methacrylic acid (MAA) in tunable ratios, the researchers achieved hydrogels exhibiting reversible expansion or contraction in response to ionic strength, along with self-healing and mechanical adaptability. These materials were tessellated into hybrid constructs that transform predictably from 2D to 3D shapes (rolling, buckling, or spiraling) upon salinity changes, enabling untethered robotic functions such as cargo gripping, magnetic navigation, and controlled release. The study establishes a ‘molecule-to-robot’ framework for designing biocompatible, programmable hydrogel actuators for biomedical microrobotics.

Tensile mechanical characterization of DMAPS–MAA hydrogels and hybrid bilayer constructs was performed using a CellScale UniVert mechanical testing system (Waterloo, ON, Canada). Hydrogel strips equilibrated in water were cut to defined dimensions and mounted under tension to evaluate Young’s modulus, tensile strength, and elongation at break. The UniVert results showed modulus values ranging from 28 kPa (soft DMAPS-rich gels) to 61 kPa (stiffer MAA-rich gels), confirming tunable mechanical behavior critical for programmed deformation and interlayer adhesion. These results validated the hydrogels’ capability to withstand repetitive swelling cycles and maintain mechanical integrity for robotic actuation.

AUTHORS

Negin Bouzari, Rasool Nasseri, Junting Huang, Sayan Ganguly, Xiaowu (Shirley) Tang, Tizazu H. Mekonnen, Amirreza Aghakhani, Hamed Shahsavan.

PUBLICATION DETAILS

JOURNAL

Small Methods

YEAR

2025

INSTITUTIONS

University of Waterloo, University of Stuttgart

COUNTRIES

Canada, Germany

INSTRUMENT USED

UniVert

TESTING METHODS

Hydrated and Temperature Controlled TestingTensile TestingUltra Low Force TestingViscoelastic & Time-Dependent Testing

RESEARCH APPLICATIONS

Drug Screening & Drug Delivery MechanicsHydrogel Mechanical TestingInjectable & Regenerative BiomaterialsMechanotransductionOrgan-On-A-Chip SystemsSoft Robotics MaterialsStimuli Responsive Hydrogels Characterization

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