Add to ORKGHierarchical pillar arrays consisting of micrometer-sized polymer setae covered by carbon nanotubes are engineered to deliver the role of spatulae, mimicking the fibrillar adhesive surfaces of geckos. These biomimetic structures conform well and achieve better attachment to rough surfaces, providing a new platform for a variety of applications
The attachment pads of gecko lizards represent one of the most versatile and effective adhesive stru...
An overview of the recent progress in the development of gecko-inspired synthetic dry adhesives is p...
We have systematically studied the macroscopic adhesive properties of vertically aligned nanotube ar...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
ABSTRACT: The adhesive properties of the gecko foot have inspired designs of advanced micropatterned...
The ability of gecko lizards to adhere to a vertical solid surface comes from their remarkable feet ...
This work introduces novel techniques for the fabrication of bio-inspired hierarchical micro- and na...
Geckos are well known for being rapid climbers that have long existed in nature. The reversible and ...
The fine hair adhesive system found in nature is capable of reversibly adhering to just about any su...
Fibrillar structures are found on the attachment pads of insects and small reptiles. These structure...
We have systematically studied the macroscopic adhesive properties of vertically aligned nanotube ar...
The gecko's extraordinary climbing ability has inspired scientists to develop synthetic dry adhesive...
Adhesive joining with molecular (van der Waals) interactions without chemical glue is presently rece...
Gecko’s dry attachment system has been acknowledged to be the most efficient among all the biologica...
The attachment pads of gecko lizards represent one of the most versatile and effective adhesive stru...
An overview of the recent progress in the development of gecko-inspired synthetic dry adhesives is p...
We have systematically studied the macroscopic adhesive properties of vertically aligned nanotube ar...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
The adhesive properties of the gecko foot have inspired designs of advanced micropatterned surfaces ...
ABSTRACT: The adhesive properties of the gecko foot have inspired designs of advanced micropatterned...
The ability of gecko lizards to adhere to a vertical solid surface comes from their remarkable feet ...
This work introduces novel techniques for the fabrication of bio-inspired hierarchical micro- and na...
Geckos are well known for being rapid climbers that have long existed in nature. The reversible and ...
The fine hair adhesive system found in nature is capable of reversibly adhering to just about any su...
Fibrillar structures are found on the attachment pads of insects and small reptiles. These structure...
We have systematically studied the macroscopic adhesive properties of vertically aligned nanotube ar...
The gecko's extraordinary climbing ability has inspired scientists to develop synthetic dry adhesive...
Adhesive joining with molecular (van der Waals) interactions without chemical glue is presently rece...
Gecko’s dry attachment system has been acknowledged to be the most efficient among all the biologica...
The attachment pads of gecko lizards represent one of the most versatile and effective adhesive stru...
An overview of the recent progress in the development of gecko-inspired synthetic dry adhesives is p...
We have systematically studied the macroscopic adhesive properties of vertically aligned nanotube ar...