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Literature DB >> 26488215

Orthogonal Control of Stability and Tunable Dry Adhesion by Tailoring the Shape of Tapered Nanopillar Arrays.

Younghyun Cho¹, Gyuseok Kim¹, Yigil Cho¹, Su Yeon Lee¹, Helen Minsky², Kevin T Turner², Daniel S Gianola¹, Shu Yang¹.

Abstract

Tapered nanopillar structures of different cross-sectional geometries including cone-, pencil-like, and stepwise are prepared from anodized aluminum oxide templates. The shape effect on the adhesion strength is investigated in experiments and simulation. Cone-shaped nanopillars are highly bendable under load and can recover after unloading, thus, warranting high adhesion strength, 34 N cm(-2) . The pencil-like and stepwise nano-pillars are, however, easily fractured and are not recoverable under the same conditions.

Entities: Chemical Disease

Keywords: anodized aluminum oxide membranes; dry adhesion; nanoindentation; shape effect; tapered polymer nanopillars

Year: 2015 PMID： 26488215 DOI： 10.1002/adma.201503347

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

4 in total

Orthogonal Control of Stability and Tunable Dry Adhesion by Tailoring the Shape of Tapered Nanopillar Arrays.

1. Harnessing reversible dry adhesion using shape memory polymer microparticles.

2. A Pressure-Insensitive Self-Attachable Flexible Strain Sensor with Bioinspired Adhesive and Active CNT Layers.

Review 3. Force-Sensitive Interface Engineering in Flexible Pressure Sensors: A Review.

4. Hybrid Surface Patterns Mimicking the Design of the Adhesive Toe Pad of Tree Frog.