Nanorobotics is the technology of creating machines or robots at or close to the scale of a nanometer - 1 billionth of a ...

DNA nanotechnology is a field of nanotechnology that uses DNA molecules as building blocks to create structures and devices on the nanoscale, including the emerging field of DNA computing. DNA ...

Advance quantum information systems through innovative material design. Develop ultrasensitive biosensors for non-invasive ...

Nanotechnology is broadly defined as the science of creating and developing well-structured materials and their components. DNA-based nanotechnology employs branched motifs to these ends.

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.

Advances in DNA nanotechnology now offer promising solutions. They allow the creation of novel transport channels that are large enough to facilitate the passage of therapeutic proteins across ...

Advances in DNA nanotechnology now offer promising solutions. They allow the creation of novel transport channels that are large enough to facilitate the passage of therapeutic proteins across ...

DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel motion by enzymatic RNA degradation. Essentially, chemical energy is ...

Researchers have optimized DNA-nanoparticle motors to achieve speeds of 30 nm/s, matching natural motor proteins. By enhancing RNA enzyme activity and hybridization rates, the team reduced pauses and ...

Using biopolymers like DNA to construct these robots also lets researchers add sensors already available in the DNA nanotechnology literature to the robots to make a micro-mobile lab.

The transfer of this principle to artificial cells is a challenge in synthetic biology. Advances in DNA nanotechnology now offer promising solutions. They allow the creation of novel transport ...