Add to ORKGThe principle of control signal amplification is found in all actuation systems, from engineered devices through to the operation of biological muscles. However, current engineering approaches require the use of hard and bulky external switches or valves, incompatible with both the properties of emerging soft artificial muscle technology and those of the bioinspired robotic systems they enable. To address this deficiency a biomimetic molecular-level approach is developed that employs light, with its excellent spatial and temporal control properties, to actuate soft, pH-responsive hydrogel artificial muscles. Although this actuation is triggered by light, it is largely powered by the resulting excitation and runaway chemical reaction of a li...
The cooperative operation of artificial molecular motors and switches has been amplified in polymer-...
The development of stimulus-responsive polymeric materials is of great importance, especially for th...
The motion of artificial molecular machines has been amplified into the shape transformation of poly...
The principle of control signal amplification is found in all actuation systems, from engineered dev...
Soft robots have great potential applications in manufacturing, disaster rescue, medical treatment, ...
Chemically induced actuation of a polypyrrole (Ppy) artificial muscle was controlled by biocatalytic...
Complex biological systems sense, process, and respond to their surroundings in real time. The abili...
Many electronic actuators of different dimensions, such as motors, relays, pumps, and mixers, have e...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
A multi degree of freedom skeletal muscle system stimulated via optical control is presented. These ...
In this thesis, the topics around stimuli-responsive hydrogel actuators were discussed. In each proj...
A striking feature of living systems is their ability to produce motility by amplification of collec...
Novel artificial muscle materials were developed, which can be electrically actuated at near neutral...
Most soft actuators have the ability of monotonic responsiveness. That is, there is only one respons...
The continuing interest in stimuli-responsive materials has yielded quite an expansive variety of sm...
The cooperative operation of artificial molecular motors and switches has been amplified in polymer-...
The development of stimulus-responsive polymeric materials is of great importance, especially for th...
The motion of artificial molecular machines has been amplified into the shape transformation of poly...
The principle of control signal amplification is found in all actuation systems, from engineered dev...
Soft robots have great potential applications in manufacturing, disaster rescue, medical treatment, ...
Chemically induced actuation of a polypyrrole (Ppy) artificial muscle was controlled by biocatalytic...
Complex biological systems sense, process, and respond to their surroundings in real time. The abili...
Many electronic actuators of different dimensions, such as motors, relays, pumps, and mixers, have e...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
A multi degree of freedom skeletal muscle system stimulated via optical control is presented. These ...
In this thesis, the topics around stimuli-responsive hydrogel actuators were discussed. In each proj...
A striking feature of living systems is their ability to produce motility by amplification of collec...
Novel artificial muscle materials were developed, which can be electrically actuated at near neutral...
Most soft actuators have the ability of monotonic responsiveness. That is, there is only one respons...
The continuing interest in stimuli-responsive materials has yielded quite an expansive variety of sm...
The cooperative operation of artificial molecular motors and switches has been amplified in polymer-...
The development of stimulus-responsive polymeric materials is of great importance, especially for th...
The motion of artificial molecular machines has been amplified into the shape transformation of poly...