KIKI
I am tottally freaking out right now,
This is why u turned blue i bet,
check this out,
WO/2006/105478) CONDUCTING POLYMER NANOWIRE BRAIN-MACHINE ...CONDUCTING POLYMER NANOWIRE BRAIN-MACHINE INTERFACE SYSTEMS AND METHODS .... A few select polymers, such as poly acetylene,
polyaniline, polypyrrole and ...
www.wipo.int/pctdb/en/wo.jsp?IA...WO...DISPLAY... - Cached - Similar
and,
PolyanilineFrom Wikipedia, the free encyclopedia
Jump to: navigation, search
Polyaniline (PANI) is a conducting polymer of the semi-flexible rod polymer family. Although it was discovered over 150 years ago, only recently has polyaniline captured the attention of the scientific community due to the discovery of its high electrical conductivity. Amongst the family of conducting polymers, polyaniline is unique due to its ease of synthesis, environmental stability, and simple doping/dedoping chemistry. Although the synthetic methods to produce polyaniline are quite simple, its mechanism of polymerization and the exact nature of its oxidation chemistry are quite complex. Because of its rich chemistry, polyaniline has been one of the most studied conducting polymers of the past 20 years.
[edit] History
The monomer aniline was obtained for the first time from the pyrolytic distillation of indigo and was called “Krystallin” because it produced well formed crystalline salts with sulfuric and phosphoric acid. In 1840, Fritzsche also obtained a colorless oil from indigo, called it aniline ostensibly from the Spanish aAil (indigo), and oxidized it to polyaniline (PANI). Some believe this to be the first report of polyaniline, although the first definitive report of polyaniline did not occur until 1862.[1]
During the early 20th century, occasional reports about the structure
and,
Polyaniline
From Wikipedia, the free encyclopedia
Jump to: navigation, search
Polyaniline (PANI) is a conducting polymer of the semi-flexible rod polymer family. Although it was discovered over 150 years ago, only recently has polyaniline captured the attention of the scientific community due to the discovery of its high electrical conductivity. Amongst the family of conducting polymers, polyaniline is unique due to its ease of synthesis, environmental stability, and simple doping/dedoping chemistry. Although the synthetic methods to produce polyaniline are quite simple, its mechanism of polymerization and the exact nature of its oxidation chemistry are quite complex. Because of its rich chemistry, polyaniline has been one of the most studied conducting polymers of the past 20 years.
Contents [hide]
1 History
2 Oxidation states
3 Synthesis
4 Properties
5 Applications
6 External links
7 References
[edit] History
The monomer aniline was obtained for the first time from the pyrolytic distillation of indigo and was called “Krystallin” because it produced well formed crystalline salts with sulfuric and phosphoric acid. In 1840, Fritzsche also obtained a colorless oil from indigo, called it aniline ostensibly from the Spanish aAil (indigo), and oxidized it to polyaniline (PANI). Some believe this to be the first report of polyaniline, although the first definitive report of polyaniline did not occur until 1862.[1]
During the early 20th century, occasional reports about the structure
They are affect these poly rods by light and heat and electric fields so when you went tanning you turned blue!!
Shape shifters too,
this article details the outdated sensors then speaks of the new poly ones,
www.nsf.gov/news/news_summ.jsp?cntn_id=104288 Not only do the polymers conduct electrical impulses, conductive, they change shape in response to electric fields, which would allow the researchers to steer the nanowires through the brain's circulatory system. Polymer nanowires have the added benefit of being 20 to 30 times smaller than the platinum ones used in the reported laboratory experiments. They also will be biodegradable, and therefore suitable for short-term brain implants.
I wonder could we get this, this way,
www.freepatentsonline.com/6855193.htmlAn ink jet ink composition of water, humectant and a self-assembling colorant that is capable of spontaneously forming a nanoparticulate dispersion without any prior physical attrition or surface modification, the colorant having the formula: (A)m—Q—(Z)n wherein: Q represents a chromophore; each A independently represents an organic or inorganic group capable of hydrogen bonding or other non-covalent bonding; each Z independently represents an organic or inorganic group capable of electrostatic bonding; and m and n each independently represents an integer from 0 to 10; with the proviso that n+m is at least 1; and with the further proviso that at least about 50 wt. % of the colorant is present in the composition as particles.
wonder what all our jet ink printers can do
www.tgdaily.com/content/view/33743/135/