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Researchers
working at the Duke University School of Engineering have announced a
remarkable, new application for graphene. In case you’ve missed our PID
Radio discussions of graphene from 2010, here’s a quick review.
Discovered in 1962, graphene is another form or ‘allele’ of carbon.
Graphene is essentially a one atom thick plane of pure carbon arranged
in a pattern that resembles chicken wire. Since the initial description
in 1962 by Hanns-Peter Boehm, the allele drew little attention until
2010, when Andre Geim and Konstantin Novoselov at the University of
Manchester ”for groundbreaking experiments regarding
the two-dimensional material graphene”. (Source: http://www.nobelprize.org/nobel_prizes/physics/laureates/2010/).
Since 2010, graphene’s unique properties have spawned a new and lucrative industry that includes integrated circuitry and transistors, touchscreens and other electronic displays (including ‘organic’ light emitting diodes), electrochemical cells, desalination, solar cells, graphene nanoribbons and quantum dots, and as a medium for biomedical devices and even DNA sequencing. Now, Duke’s team have discovered that graphene can be controllably crumpled and uncrumpled, leading to speculation that these super thin sheets could become artificial muscle.
If published reports of scientific discoveries truly is 20-40 years behind black-ops labs, then graphene and silicene have very possibly served as building blocks for the new Adam. Craig Ventor, George Church, and Ray Kurzweil must be delighted.
To read more about Duke University’s discovery, see: Controlled crumpling of graphene forms artificial muscle.
See also:
Scientists unlock another piece to the Transhumanism puzzle
Researchers
working at the Duke University School of Engineering have announced a
remarkable, new application for graphene. In case you’ve missed our PID
Radio discussions of graphene from 2010, here’s a quick review.
Discovered in 1962, graphene is another form or ‘allele’ of carbon.
Graphene is essentially a one atom thick plane of pure carbon arranged
in a pattern that resembles chicken wire. Since the initial description
in 1962 by Hanns-Peter Boehm, the allele drew little attention until
2010, when Andre Geim and Konstantin Novoselov at the University of
Manchester ”for groundbreaking experiments regarding
the two-dimensional material graphene”. (Source: http://www.nobelprize.org/nobel_prizes/physics/laureates/2010/).Since 2010, graphene’s unique properties have spawned a new and lucrative industry that includes integrated circuitry and transistors, touchscreens and other electronic displays (including ‘organic’ light emitting diodes), electrochemical cells, desalination, solar cells, graphene nanoribbons and quantum dots, and as a medium for biomedical devices and even DNA sequencing. Now, Duke’s team have discovered that graphene can be controllably crumpled and uncrumpled, leading to speculation that these super thin sheets could become artificial muscle.
And
whereas thou sawest iron mixed with miry clay, they shall mingle
themselves with the seed of men: but they shall not cleave one to
another, even as iron is not mixed with clay. – Daniel 2:43
Now, there’s the big clue. If you re-read the list of potential uses
above and add the newly discovered ‘artificial muscle’ application, then
you might begin to see what I’m seeing: that scientists have nearly all
the basic pieces to assemble a Cylon. Graphene even has a counterpart
called silicene, which forms single layers of pure silicon. Unlike
graphene, silicene is not completely flat. Adding hydrogen
(hydrogenation) of silicenes yields silicanes, yielding heat as a result
(exothermic reaction). Silicene might prove handy for storing hydrogen.
My imagination pictures silicene ‘skin’ or even silicene ‘lung’ tissue
or even the energy behind an ‘artificial heart’.If published reports of scientific discoveries truly is 20-40 years behind black-ops labs, then graphene and silicene have very possibly served as building blocks for the new Adam. Craig Ventor, George Church, and Ray Kurzweil must be delighted.
To read more about Duke University’s discovery, see: Controlled crumpling of graphene forms artificial muscle.
See also:
- Graphene: Patent surge reveals global race
- An Analysis of Worldwide Patent Filings Relating to Graphene (pdf)
- Graphene Patent Tracker
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