Scientists Use DNA To Revolutionize Quantum Computing
Researchers from the University of Virginia’s School of Medicine and associates have harnessed life’s components to transform quantum technology potentially.
According to a news release, the researchers used DNA to direct a chemical process that would conquer the threshold to Little’s superconductor.
Before now, this process was “unachievable”. However, using chemically accurate structural engineering, they built a carbon nanotubes mesh for Little’s room-temperature superconductor.
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Scientists Close to Creating Room-temperature Superconductor
William A. Little, a scientist at Stanford University, postulated a kind of room-temperature superconductor over 50 years ago. Manufacturers may use this to allow extremely fast computers and reduce the size of electrical equipment.
Additionally, the superconductors have other uses. Meanwhile, the first room-temperature superconductor was discovered by scientists at the University of Rochester in 2020.
However, its use is challenging due to its high-pressure needs. Dr Edward H. Egelman of the University of Virginia’s Department of Biochemistry and Molecular Genetics and graduate student Leticia Beltran brought their expertise in cryo-electron microscopy (cryo-EM) to the challenge.
Their finding illustrates that the cryo-EM approach has promising importance in materials research. The scientists set out to alter the carbon nanotube lattice to achieve Little’s notion of a superconductor.
Meanwhile, regulating the chemical process along the nanotubes was the key challenge to assembling the lattice as accurately as feasible. Their discovery demonstrates that regulated carbon nanotube modification may be accomplished by utilizing DNA-sequence control over the distance between neighboring reaction sites.
Using Biological Methods And Tools In Engineering And Physics
Although the lattice the researchers constructed has not yet undergone superconducting testing, they claim it provides proof of the concept. Meanwhile, cryo-EM has become the primary method in biology for establishing the microstructures of protein complexes,
However, Egelman said it had less influence on materials research thus far. According to Egelman, their work demonstrates that scientists can apply these biological methods to challenges in engineering and physics.
He believes science is extremely intriguing because scientists can never know where their research will end up. Hence, researchers can transfer tools and methods in physics to other fields.
According to Egelman and his associates, various materials science and physics research applications may be possible using their novel DNA-enabled methodology. Most importantly, it could result in the development of Little’s room-temperature superconductors.
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These superconductors would contribute to the revolutionization of electronics. Also, their findings and other recent research on superconductors may bring quantum computing to its full potential.
If this happens, quantum computers will become more efficient and faster with little heat production. Consequently, the advancement would spread to other areas and fields.
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