Polymerizable deep eutectic systems enable the fabrication of microscale soft robotic and adaptive systems. The dataset likely contains experimental results for microactuators exhibiting reversible, multi-state, and bidirectional actuation across a pH range. Hoang Bao Duc Tran authored this research, which was harvested by heiDATA Dataverse and last updated on 2026-05-31.
Use Cases
- Modeling hyperelastic actuation behavior based on the finite element framework described.
- Designing multi-state microactuators based on the antagonistic swelling behavior of the two functional materials.
- Testing cycling stability of pH-responsive microstructures based on the high stability mentioned.
- Developing complex actuator geometries for microscale soft robotics based on the demonstrated platform versatility.
Strengths
- Describes a novel material platform using polymerizable deep eutectic systems.
- Highlights pronounced and reversible pH-responsive actuation with high cycling stability.
- Demonstrates multi-state and bidirectional actuation beyond conventional bilayer systems.
Limitations
- Column-level documentation is absent; field semantics must be inferred after download.
- Row count is unknown, which may limit suitability assessment.
- Freshness should be verified as the last update date is in the future (2026-05-31).
Provenance
- Source
- heiDATA Harvested Dataverse
- Collection Method
- Fabricated via multiphoton 3D laser printing (MPLP) of polymerizable deep eutectic systems.
- Freshness
- Last updated 2026-05-31 07:10:14