Mr. Singularity | Direct Data Transfer From Computers to Living Cells @MrSingularity | Uploaded June 2021 | Updated October 2024, 4 hours ago.
π A new method could allow us to write digital data directly into the genomes of living cells. DNA holds promise as an incredibly compact and stable storage medium. It could lead to a variety of applications both for data storage and beyond, says Harris Wang. Researchers at Columbia University have shown a way to translate optical-electronic signals into genetic data. Researchers have developed a DNA-based cell recorder for E.
Coli bacteria. The researchers were able to encrypt the message "Hello World" in 72 bits. Wang says there is plenty of potential for improving the system over the next few years. He says it could be possible to increase capacity by several orders of magnitude. Researchers have developed a way to reprogram DNA cells for our own devices. The technology could be used in the field of biocomputer science.
Thanks and Enjoy π₯ π₯
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π₯ #Data #Transfer #Cells
Sources:
β weforum.org/agenda/2019/04/how-much-data-is-generated-each-day-cf4bddf29f
β sciencemag.org/news/2017/03/dna-could-store-all-worlds-data-one-room
β nationalgeographic.co.uk/history-and-civilisation/2017/11/worlds-oldest-genome-sequenced-700000-year-old-horse-dna
β singularityhub.com/2019/04/01/microsoft-is-building-an-all-in-one-dna-data-storage-device
β nature.com/articles/s41589-020-00711-4
β cnet.com/news/startup-packs-all-16gb-wikipedia-onto-dna-strands-demonstrate-new-storage-tech
β sciencedirect.com/science/article/pii/S1097276519305416
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π A new method could allow us to write digital data directly into the genomes of living cells. DNA holds promise as an incredibly compact and stable storage medium. It could lead to a variety of applications both for data storage and beyond, says Harris Wang. Researchers at Columbia University have shown a way to translate optical-electronic signals into genetic data. Researchers have developed a DNA-based cell recorder for E.
Coli bacteria. The researchers were able to encrypt the message "Hello World" in 72 bits. Wang says there is plenty of potential for improving the system over the next few years. He says it could be possible to increase capacity by several orders of magnitude. Researchers have developed a way to reprogram DNA cells for our own devices. The technology could be used in the field of biocomputer science.
Thanks and Enjoy π₯ π₯
- - -
π₯ #Data #Transfer #Cells
Sources:
β weforum.org/agenda/2019/04/how-much-data-is-generated-each-day-cf4bddf29f
β sciencemag.org/news/2017/03/dna-could-store-all-worlds-data-one-room
β nationalgeographic.co.uk/history-and-civilisation/2017/11/worlds-oldest-genome-sequenced-700000-year-old-horse-dna
β singularityhub.com/2019/04/01/microsoft-is-building-an-all-in-one-dna-data-storage-device
β nature.com/articles/s41589-020-00711-4
β cnet.com/news/startup-packs-all-16gb-wikipedia-onto-dna-strands-demonstrate-new-storage-tech
β sciencedirect.com/science/article/pii/S1097276519305416
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![The Quantum Battery To Rule Them All - Breakthrough Solid State Battery 900 Wh/L Samsung [2020]](https://i.ytimg.com/vi/pz2hCN9pkDg/hqdefault.jpg "The Quantum Battery To Rule Them All - Breakthrough Solid State Battery 900 Wh/L Samsung [2020]
π« DO NOT CLICK HERE TO SUBSCRIBEβ‘οΈ http://bit.ly/Hal9o0o π«
β The Quantum Battery To Rule Them All - Breakthrough Solid State Battery 900 Wh/L Samsung.
Simulating the three molecules can help us to understand how critical properties such as energy conservation and discharge can influence their behavior. Quantum computers keep much more powerful potential to perform such kinds of simulations. This battery chemistry claims to be more efficient, longer-lasting, and cheaper than lithium ion technologies.
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π₯ #Science #Technology #Innovation
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