Add to ORKGTo create life-like movements, living muscle actuator technologies have borrowed inspiration from biomimetic concepts in developing bioinspired robots. Here, the development of a bioinspired soft robotics system, with integrated self-actuating cardiac muscles on a hierarchically structured scaffold with flexible gold microelectrodes is reported. Inspired by the movement of living organisms, a batoid-fish-shaped substrate is designed and reported, which is composed of two micropatterned hydrogel layers. The first layer is a poly(ethylene glycol) hydrogel substrate, which provides a mechanically stable structure for the robot, followed by a layer of gelatin methacryloyl embedded with carbon nanotubes, which serves as a cell culture substrate,...
Robotics is nowadays facing emerging challenges, due to the need of designing and developing novel m...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
Biological machines often referred to as biorobots, are living cell- or tissue-based devices that ar...
To create life-like movements, living muscle actuator technologies have borrowed inspiration from bi...
To create life-like movements, living muscle actuator technologies have borrowed inspiration from bi...
While previous works on cell-based devices for integrated chemical systems have focused on exploitin...
Combining biological components, such as cells and tissues, with soft robotics can enable the fabric...
<p>Living systems have developed intricate multi-functional methods of sensing and responding to the...
We consider the embodiment of a microbial fuel cell using artificial muscle actuators. The microbial...
Soft robotics is an emerging discipline that employs soft flexible materials such as fluids, gels an...
Abstract Biohybrid artificial muscle produced by integrating living muscle cells and their scaffolds...
We present a methodology for building biologically inspired, soft microelectromechanical systems (ME...
The quest to \u27forward-engineer\u27 and fabricate biological machines remains a grand challenge. T...
Imitating natural living beings remains a perpetual curiosity of human beings. The pursuit of replic...
In recent years, hybrid devices that consist of a living cell or tissue component integrated with a ...
Robotics is nowadays facing emerging challenges, due to the need of designing and developing novel m...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
Biological machines often referred to as biorobots, are living cell- or tissue-based devices that ar...
To create life-like movements, living muscle actuator technologies have borrowed inspiration from bi...
To create life-like movements, living muscle actuator technologies have borrowed inspiration from bi...
While previous works on cell-based devices for integrated chemical systems have focused on exploitin...
Combining biological components, such as cells and tissues, with soft robotics can enable the fabric...
<p>Living systems have developed intricate multi-functional methods of sensing and responding to the...
We consider the embodiment of a microbial fuel cell using artificial muscle actuators. The microbial...
Soft robotics is an emerging discipline that employs soft flexible materials such as fluids, gels an...
Abstract Biohybrid artificial muscle produced by integrating living muscle cells and their scaffolds...
We present a methodology for building biologically inspired, soft microelectromechanical systems (ME...
The quest to \u27forward-engineer\u27 and fabricate biological machines remains a grand challenge. T...
Imitating natural living beings remains a perpetual curiosity of human beings. The pursuit of replic...
In recent years, hybrid devices that consist of a living cell or tissue component integrated with a ...
Robotics is nowadays facing emerging challenges, due to the need of designing and developing novel m...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
Biological machines often referred to as biorobots, are living cell- or tissue-based devices that ar...