This isa pretty interesting piece. It implies that most of the complicated and expensive atom level experiments to create nanotubes and other “nanostructures” were something of a waste of time. They also imply that the next advance in nanotechnology maybe finding ways to form, market and install new nanostructures at the real world level. In the literature it is stated that this form of cellulose can be both an insulator and a conductor so it would be nice if someone came up with a shielded electrical cable that could be used in the housing market, for instance. I have included 2 references for clarity’s sake.
http://en.wikipedia.org/wiki/Nanocellulose
http://www.conservationmagazine.org/2012/06/nanocellulose-is-no-small-thing/
Nanocellulose Is No Small Thing
Trees could become part of electronics, medical devices, and military gear
For centuries, the forestry industry has produced paper and lumber. But what if trees could be transformed into an entirely new set of products, ranging from electronic sensors to biomedical implants to military protective gear?
The idea isn’t as improbable as it sounds. Researchers are studying a nanoscale material that can be extracted from trees and, in some forms, is about as strong as Kevlar. Called “nanocellulose,” this lightweight material is composed of bundled sugar chains from the cell walls of wood. Researchers can extract nanocellulose by grinding pulp or using chemicals to break it down into tiny particles. At such small scales, the material has fewer defects, making it stronger. One type of nanocellulose particle, called cellulose nanocrystals, is especially tough because the sugar chains are arranged in a highly ordered structure.
Researchers envision a huge array of applications for nanocellulose. It could partially replace fossil fuel–based products such as petroleum-derived plastics and might be cheaper than other high-performance nanoscale materials. Clear sheets of nanocellulose might be useful for windows or electronic displays. Studies have shown that some forms of cellulose are piezoelectric, meaning they generate an electrical signal when deformed, so nanocellulose-based sensors could potentially monitor structures such as bridges for signs of stress. Nanocellulose food packaging could block oxygen permeation and keep the contents from spoiling, while nanocellulose scaffolds implanted in the body might aid bone regeneration. And at the U.S. Army Research Laboratory in Maryland, researchers are investigating whether nanocellulose-reinforced materials could better protect soldiers on the battlefield.
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Go there and read. More next week.
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