Researchers have now discovered that Escherichia coli bacteria harness a sophisticated chemosensory and signal transduction machinery that allows them to accurately control motor rotation, thereby ...

The American research team succeeded in producing autonomously propelled minimal motor that can freely move within the cell. The success of this experiment freely moves the inside of the human body ...

Three engineering departments at Rutgers, The State University of New Jersey –mechanical and aerospace, biomedical, and chemical and biochemical – are teaming up to create a prototype of an ultra-tiny ...

Diverse cellular processes require many tiny force-generating motor proteins to work in a team. Paradoxically, nature often chooses the weak and inefficient dynein motor to generate large persistent ...

Researchers at Lawrence Berkeley Labs and the University of California have made a new nanoscale motor that can drive a disc 4000 times bigger than itself. It is powered via the so-called “plasmonic ...

NEW BRUNSWICK/PISCATAWAY, N.J. – Three engineering departments at Rutgers, The State University of New Jersey – mechanical and aerospace, biomedical, and chemical and biochemical – are teaming up to ...

Through a technique known as DNA origami, scientists have created the fastest, most persistent DNA nano motor yet. Angewandte Chemie published the findings, which provide a blueprint for how to ...

A MOLECULE that can be made to twist from one shape to another could become a powerful motor for use in future nanomachines. Unlike previous molecular motors based on biomolecules, which needed the ...