Scientists used the building blocks of life to bring the quantum computing revolution one step closer.
The researchers set about trying to realize Little idea for a superconductor by modifying lattices of carbon nanotubes. The main obstacle was controlling the chemical reaction along the nanotubes so that the lattice could be assembled as precisely as possible. According to Egelman, their "work demonstrates that ordered carbon nanotube modification can be achieved by taking advantage of DNA-sequence control over the spacing between adjacent reaction sites.
"While we often think of biology using tools and techniques from physics," Egelman added, "Our work shows that the approaches being developed in biology can actually be applied to problems in physics and engineering. This is what is so exciting about science: not being able to predict where our work will lead."
Egelman and his colleagues say their new DNA-enabled method could have a wide range of research applications in physics and materials science. Crucially, it could lead to the creation of Little's room-temperature superconductor, which could help revolutionize electronics. Their work, combined with
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