Add to ORKGThe fine hair adhesive system found in nature is capable of reversibly adhering to just about any surface. This dry adhesive, best demonstrated in the pad of the gecko, makes use of a multilevel conformal structure to greatly increase inelastic surface contact, enhancing short range interactions and producing significant amounts of attractive forces. Recent work has attempted to reproduce and test the terminal submicrometre 'hairs' of the system. Here we report the first batch fabricated multi-scale conformal system to mimic nature's dry adhesive. The approach makes use of, massively parallel MEMS processing technology to produce 20-150 mu m platforms, supported by single slender pillars, and coated with similar to 2 mu m long similar to 20...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
A novel method to increase the van der Waals adhesion of a gecko-inspired polymeric fibrillar dry ad...
Bioinspired dry adhesives with micropillar arrays can be harnessed for precise and environment-frien...
Gecko’s dry attachment system has been acknowledged to be the most efficient among all the biologica...
This Feature Article aims to highlight our recent efforts to develop more robust gecko-inspired dry ...
The attachment pads of gecko lizards represent one of the most versatile and effective adhesive stru...
Inspired by the remarkable adhesion properties of gecko lizards, bio-inspired dry adhesives with sma...
Bioinspired synthetic dry adhesives offer unique potential in the field of micro assembly and manipu...
Inspired by the remarkable adhesion properties of gecko lizards, bio-inspired dry adhesives with sma...
Gecko-like dry adhesive using high aspect ratio polymeric nanohairs has insuperable limitations, alt...
We developed a dry synthetic adhesive system inspired by gecko feet adhesion that can switch reversi...
Robust and inexpensive dry adhesives would have a multitude of potential applications, but replicati...
Adhesive joining with molecular (van der Waals) interactions without chemical glue is presently rece...
The applications of dry adhesives range from part handling in manufacturing to aids for human and ro...
Biomimetics has introduced a new paradigm: by constructing structures with engineered materials and ...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
A novel method to increase the van der Waals adhesion of a gecko-inspired polymeric fibrillar dry ad...
Bioinspired dry adhesives with micropillar arrays can be harnessed for precise and environment-frien...
Gecko’s dry attachment system has been acknowledged to be the most efficient among all the biologica...
This Feature Article aims to highlight our recent efforts to develop more robust gecko-inspired dry ...
The attachment pads of gecko lizards represent one of the most versatile and effective adhesive stru...
Inspired by the remarkable adhesion properties of gecko lizards, bio-inspired dry adhesives with sma...
Bioinspired synthetic dry adhesives offer unique potential in the field of micro assembly and manipu...
Inspired by the remarkable adhesion properties of gecko lizards, bio-inspired dry adhesives with sma...
Gecko-like dry adhesive using high aspect ratio polymeric nanohairs has insuperable limitations, alt...
We developed a dry synthetic adhesive system inspired by gecko feet adhesion that can switch reversi...
Robust and inexpensive dry adhesives would have a multitude of potential applications, but replicati...
Adhesive joining with molecular (van der Waals) interactions without chemical glue is presently rece...
The applications of dry adhesives range from part handling in manufacturing to aids for human and ro...
Biomimetics has introduced a new paradigm: by constructing structures with engineered materials and ...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
A novel method to increase the van der Waals adhesion of a gecko-inspired polymeric fibrillar dry ad...
Bioinspired dry adhesives with micropillar arrays can be harnessed for precise and environment-frien...