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A Physics Magic Trick: Take 2 Sheets of Carbon and Twist

JacksinPA

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A Physics Magic Trick: Take 2 Sheets of Carbon and Twist - The New York Times

The study of graphene was starting to go out of style, but new experiments with sheets of the ultrathin material revealed there was much left to learn.

In the universe of office supplies, pencil lead — a mixture of graphite and clay, which does not include any lead — appears unexceptional beyond its ability to draw dark lines. But 15 years ago, scientists discovered that a single sheet of graphite — a one-atom-thick layer of carbon atoms laid out in a honeycomb pattern — is a wonder. This ultrathin carbon, called graphene, is flexible and lighter than paper yet 200 times stronger than steel. It is also a good conductor of heat and electrical current.

Scientists imagined all of the remarkable things that graphene might be made into: transistors, sensors, novel materials. But after studying and cataloging its properties, scientists moved on to other problems. Practical uses have been slow to come, because part of what makes graphene alluring — its strength — also makes the material difficult to cut into precise shapes.
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Physicists at the Massachusetts Institute of Technology discovered that stacking two sheets of the material, twisted at a small angle between them, opened up a treasure box of strange phenomena. It started a new field: twistronics.

In a series of experiments it showed that by tweaking graphene’s temperature, magnetic field and the number of electrons able to move freely, the material shifted from behaving like an insulator, where electrical current does not flow, to becoming a superconductor, able to convey electrical current without resistance.

Twistronics is one of my new word learned this week. The other is Jessica, the knockout young lady at my bank branch
 
Graphene is weird as ****
 
A Physics Magic Trick: Take 2 Sheets of Carbon and Twist - The New York Times

The study of graphene was starting to go out of style, but new experiments with sheets of the ultrathin material revealed there was much left to learn.

In the universe of office supplies, pencil lead — a mixture of graphite and clay, which does not include any lead — appears unexceptional beyond its ability to draw dark lines. But 15 years ago, scientists discovered that a single sheet of graphite — a one-atom-thick layer of carbon atoms laid out in a honeycomb pattern — is a wonder. This ultrathin carbon, called graphene, is flexible and lighter than paper yet 200 times stronger than steel. It is also a good conductor of heat and electrical current.

Scientists imagined all of the remarkable things that graphene might be made into: transistors, sensors, novel materials. But after studying and cataloging its properties, scientists moved on to other problems. Practical uses have been slow to come, because part of what makes graphene alluring — its strength — also makes the material difficult to cut into precise shapes.
================================================================
Physicists at the Massachusetts Institute of Technology discovered that stacking two sheets of the material, twisted at a small angle between them, opened up a treasure box of strange phenomena. It started a new field: twistronics.

In a series of experiments it showed that by tweaking graphene’s temperature, magnetic field and the number of electrons able to move freely, the material shifted from behaving like an insulator, where electrical current does not flow, to becoming a superconductor, able to convey electrical current without resistance.

Twistronics is one of my new word learned this week. The other is Jessica, the knockout young lady at my bank branch

I read somewhere that this would be a hot charge---now getting back to graphene.

A graphene breakthrough hints at the future of battery power
 
I haven't read the origional papers on this, but think of all the energy - in more ways than one - that high-voltage power cables based on graphene could save. Right now we use aluminum, which compared to gold & silver is a pretty crappy conductor. Power plants would have to use less fuel to make up for the decreased resistive loss in long-distance power transmission cables. But on the other side of the coin is the negative impact on the aluminum & cable industries.
 
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