Researchers leverage their understanding of molecular motors to improve nanoscale artificial motors, aiming to bridge the ...

The research published in Nature Materials, shows the significant importance of DNA nanotechnology. The study highlights the use of signal-dependent DNA nanorobots influencing the shape and ...

Scientists develop DNA nanorobots capable of modifying artificial cells. Scientists at the University of Stuttgart have ...

This work could advance the understanding of immune system responses and pave the way for improved vaccines and immunotherapies ...

DNA nanotechnology is an innovative field that utilizes the unique properties of DNA molecules to create nanoscale structures and devices for various applications, particularly in biomedicine.

The researchers found that the transformation of these DNA nanorobots can be coupled with the deformation of the giant ...

Researchers have optimized DNA-nanoparticle motors to achieve speeds of 30 nm/s, matching natural motor proteins. By ...

A recent study demonstrates the potential of nuclear electric resonance to control the nuclear spins of nitrogen atoms in DNA ...

Drawing on the team's deep knowledge of DNA nanotechnology, they realized that the vast majority of existing designs explore very little of the design space. First, the complexity of creating ...

The team’s novel technique, detailed in a paper published in Advanced Functional Materials ( "In Vivo Screening of Barcoded ...

There is a need to bridge educational gaps to equip future generations for a high-tech world In 1959, a well-known physicist, Richard Feynman, delivered a vi ...