PEER-REVIEWED PUBLICATION

2025

Micropillar-Enabled Tough Adhesion and Enhanced Sensing

A tensile test divider icon

Xia X, Chen X, et al.

Matter

Southern University of Science and Technology

RESEARCH SUMMARY
This work presents a hyperbranched polyurethane-based micropillared interface that simultaneously achieves high interfacial toughness and enhanced sensing performance in soft multilayer iontronic sensors. By tuning the micropillar geometry such that pillar diameter falls below the flaw sensitivity length, the interface eliminates critical defects, achieving an exceptional interfacial toughness of 5,095 J m⁻². These micropillars function dually as robust adhesion structures and adaptive elastic spacers, enhancing pressure sensitivity and enabling detection of high-frequency signals up to 7,000 Hz. The micropillared design offers a generalizable route for developing skin-like sensors with superior adhesion, durability, and mechanical adaptability for humanoid robotics and wearable technologies.
CellScale hexagons, without text

CELLSCALE INSTRUMENT USED

UniVert

Peel adhesion tests were conducted using a CellScale UniVert S2 mechanical testing system (Waterloo, ON, Canada) at a peel rate of 50 mm min⁻¹. Samples consisting of hyperbranched polyurethane micropillar arrays bonded to flexible iontronic sensor films were tested to quantify interfacial energy release rates and adhesion strength. A fiber paper backing (~0.08 mm thickness) was used during testing to ensure consistent load transfer. The UniVert S2 results revealed a pronounced size-dependent adhesion effect, confirming that reducing pillar diameter below the flaw sensitivity length enhances interfacial toughness beyond 5,000 J m⁻², supporting the structure’s dual functionality as both an adhesion promoter and compliant sensing spacer.
AUTHORS

Xi Xia, Xingxing Chen, Junli Shi, Zhibin Li, Bingfa Jiang, Kaixi Huang, Mengxue Guo, Zeyun Yang, Zelong Liao, Chaoyang Song, Chuan Fei Guo.

PUBLICATION DETAILS
JOURNAL

Matter

YEAR

2025

INSTITUTIONS

Southern University of Science and Technology

COUNTRIES

China

INSTRUMENT USED

UniVert

TESTING METHODS

Peel Testing

RESEARCH APPLICATIONS

Adhesives and Sealants TestingPolymers and Elastomers TestingSoft Robotics MaterialsWearable Bioelectronics

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Product of Interest:
CellScale hexagon shapes