Biohybrid Robots Work Continues with US Army Combat Capabilities Development Command – Defense TechConnect
Actuators | Free Full-Text | Biohybrid Actuators for Soft Robotics: Challenges in Scaling Up
Biohybrid Robots | A Moment of Science - Indiana Public Media
Researchers have developed a novel method of growing whole muscles from hydrogel sheets impregnated with myoblasts. They then incorporated these muscles as antagonistic pairs into a biohybrid robot, which successfully performed manipulations
Biohybrid robot wired to “hear” using locust's ear
Researchers build a crawling robot from sea slug parts and a 3-D printed body | Case School of Engineering | Case Western Reserve University
Biohybrid robots built from living tissue start to take shape
Biohybrid robot powered by an antagonistic pair of skeletal muscle tissues
New Biohybrid Robot Uses Living Muscle Tissue to Move a Finger
B01-02 : Development of biohybrid soft robots powered by skeletal muscle tissues | Science of Soft Robots – Interdisciplinary integration of mechatronics, material science, and bio-computing | JSPS KAKENHI Grant-in-Aid for Scientific
Biohybrid design: How to build a biological robot | BBC Science Focus Magazine
Biohybrid robots, the next step in the robotic revolution | OpenMind
Construction of a biohybrid robot with the skeletal muscle tissue... | Download Scientific Diagram
Recent progress in engineering functional biohybrid robots actuated by living cells - ScienceDirect
Toy transformers and real-life whales inspire | EurekAlert!
A Robot with Muscle | Think magazine | CWRU
Japanese team combines animal cells with robotic joints for 'biohybrid' devices
Biohybrid robots built from living tissue start to take shape
Biohybrid robots built from living tissue start to take shape
Biohybrid Ray is a Leap Forward in Robotic Bioengineering | Engineering.com
Biohybrid robot powered by an antagonistic pair of skeletal muscle tissues
GatorShark Biohybrid Robot by biohazzart on DeviantArt
Mapping out a biorobotic future | Case School of Engineering | Case Western Reserve University
A vision for future bioinspired and biohybrid robots
