Add to ORKGThe octopus couples controllable adhesives with intricately embedded sensing, processing, and control to manipulate underwater objects. Current synthetic adhesive–based manipulators are typically manually operated without sensing or control and can be slow to activate and release adhesion, which limits system-level manipulation. Here, we couple switchable, octopus-inspired adhesives with embedded sensing, processing, and control for robust underwater manipulation. Adhesion strength is switched over 450× from the ON to OFF state in \u3c50 ms over many cycles with an actively controlled membrane. Systematic design of adhesive geometry enables adherence to nonideal surfaces with low preload and independent control of adhesive strength and adhe...
Underwater or wet adhesion is highly desirable for numerous applications but is counteracted by the ...
For wound closure, adhesives provide many advantages over the use of sutures. However, adhesives are...
A soft gripper inspired by the glowing sucker octopus (Stauroteuthis syrtensis)’ highly evolved gras...
Strong adherence to underwater or wet surfaces for applications like tissue adhesion and underwater ...
Advances in reversible adhesives have proven critical in accomplishing novel robotic locomotion and ...
Nature has developed protein‐based adhesives whose underwater performance has attracted much researc...
AbstractNature offers many interesting adhesion mechanisms where attachment forces can be generated ...
By mimicking muscle actuation to control cavity-pressure-induced adhesion of octopus suckers, smart ...
Among the hundreds of commercial adhesives available today, few, if any, have the ability to form st...
Many marine organisms harness diverse protein molecules as underwater adhesives to achieve strong an...
Underwater adhesion is technically challenging mainly because of the presence of water which drastic...
Underwater adhesion is a challenging task for most synthetic adhesives. Efforts to overcome this cha...
Adhesion system is of great importance to underwater grasp and manipulation, however, the adhesion s...
The octopus is capable of adhering to slippery, rough, and irregular surfaces in the marine intertid...
An estimated 20 million tons of adhesives are used globally each year, and the amount is continually...
Underwater or wet adhesion is highly desirable for numerous applications but is counteracted by the ...
For wound closure, adhesives provide many advantages over the use of sutures. However, adhesives are...
A soft gripper inspired by the glowing sucker octopus (Stauroteuthis syrtensis)’ highly evolved gras...
Strong adherence to underwater or wet surfaces for applications like tissue adhesion and underwater ...
Advances in reversible adhesives have proven critical in accomplishing novel robotic locomotion and ...
Nature has developed protein‐based adhesives whose underwater performance has attracted much researc...
AbstractNature offers many interesting adhesion mechanisms where attachment forces can be generated ...
By mimicking muscle actuation to control cavity-pressure-induced adhesion of octopus suckers, smart ...
Among the hundreds of commercial adhesives available today, few, if any, have the ability to form st...
Many marine organisms harness diverse protein molecules as underwater adhesives to achieve strong an...
Underwater adhesion is technically challenging mainly because of the presence of water which drastic...
Underwater adhesion is a challenging task for most synthetic adhesives. Efforts to overcome this cha...
Adhesion system is of great importance to underwater grasp and manipulation, however, the adhesion s...
The octopus is capable of adhering to slippery, rough, and irregular surfaces in the marine intertid...
An estimated 20 million tons of adhesives are used globally each year, and the amount is continually...
Underwater or wet adhesion is highly desirable for numerous applications but is counteracted by the ...
For wound closure, adhesives provide many advantages over the use of sutures. However, adhesives are...
A soft gripper inspired by the glowing sucker octopus (Stauroteuthis syrtensis)’ highly evolved gras...