University Research
Accessibility
1
Academic department
Biology Department
Description
Gecko-inspired adhesives offer strong, reversible, and directionally tunable adhesion, yet fabrication methods often depend on cleanroom lithography or proprietary molds, limiting scalability and accessibility. This study presents a low-cost, modular fabrication strategy combining high-resolution digital light processing 3D printing with 1000 lines/mm optical diffraction gratings to create hierarchical elastomeric adhesives. The resulting structures feature macroscale micropillars and embedded sub-micron surface topography, enabling effective contact splitting without advanced microfabrication. Mechanical testing reveals a nonlinear increase in shear performance with contact area, with maximum shear forces exceeding 80 N at 103.2 cm2. Peel testing across varied angles and surface areas demonstrates anisotropic adhesion, with peak peel strength of 21.94 N and detachment energy of 3.88 J at a 30° peel angle for patch area of 103.2 cm2. A comparative cost analysis highlights the accessibility of this method, revealing a 10–100x reduction in fabrication cost relative to cleanroom and roll-to-roll-based techniques. This approach enables reproducible microstructure transfer, optical validation, and application-specific tunability, offering a practical, scalable pathway for bio-inspired adhesives in robotics, wall-climbing systems, and soft interface applications.
Publisher name
IOP Science
Grant Information
N/A
Data Management
N/A
Document Type
Article
Digital Object Identifier (DOI) Link
https://doi.org/10.1088/1748-3190/ae39bc
Publication Date
2-5-2026
Publication Title
Bioinspiration & Biomimetics
Volume
21
Issue
1
Recommended Citation
Hassan, Motaz; Fayomi, Oluwafemi; Mahajan, Ajay; and Faust, Joshua, "Print, pattern, stick: Low–cost gecko–inspired adhesives using embedded diffraction structures" (2026). University Research. 48.
https://ideaexchange.uakron.edu/university_research/48
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.