Post by skyship on Jan 23, 2015 21:16:45 GMT -5
We have spheres, often elongated spheres, looking like fat, pure white, at core of the pain, and entity
in Morgellons, often as well, wrapped in telechelic polymers, or black lead polymers. Tethered, could be the polymers made of different things, like chains in a prison matrix of the skin. These would be the monomers or precursors of this evil.
===========================Carnegie Mellon, puppets for the NWO regime:
Spherical Particles
Spherical Particles: The functionalization of the surfaces of many solids; including silica (SiO2), gold, silver, germanium, PbS, carbon black, iron oxides and other metal oxide systems has been achieved, (many references are provided in reference 1 below) allowing for subsequent attachment of initiators for the ATRP of many monomers forming organic/inorganic hybrid
www.cmu.edu/maty/materials/Nanostructured-materials/spherical-particles.html
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ATRP:
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About Atom Transfer Radical Polymerization (ATRP)
Atom Transfer Radical Polymerization (ATRP) is among the most effective and most widely used methods of controlled radical polymerization (CRP). ATRP allows scientists to easily form polymers by putting together component parts, called monomers, in a controlled, piece-by-piece fashion. Assembling polymers in such a manner has allowed scientists to create a wide range of polymers with site specific tailored functionalities targeting specific properties for high value applications. For example, polymers created using ATRP have been used for coatings and adhesives, and are currently under investigation for use in the medical and environmental fields.
Until the discovery of ATRP, polymer chemists were severely limited in their ability to control the composition and architecture of macromolecules, making it difficult to provide materials with highly specific, uniform characteristics. Since the mid-1950s, many chemists attempted to develop a “living” or controlled radical polymerization process that would create well-defined polymers in a simple, inexpensive manner. In the mid-1990s, several laboratories across the world surmounted this vexing problem by developing CRP methods. These techniques allow synthesis of fundamentally new materials with complex, well-defined nanoscale architectures. In 1995, Carnegie Mellon University Professor Krzysztof Matyjaszewski discovered one of the first — and most robust — CRP methods, copper-mediated ATRP. The seminal paper was published in the Journal of the American Chemical Society and has been cited over 3,000 times and the initial 1995 patent applications close to 200 times.
ATRP differs significantly from earlier conventional radical based polymer manufacturing methods by allowing scientists to produce complex polymer structures using a special catalyst that adds one or a few subunits (monomers) at a time to a growing polymer chain. This living, synthetic process can be shut down or re-started at will, depending on how the temperature and other conditions of the reaction are varied. ATRP is an exceptionally robust way to uniformly and precisely control the chemical composition and architecture of polymers as well as the uniform growth of every polymer chain, while employing a broad range of monomers.
www.cmu.edu/maty/about-atrp.html
in Morgellons, often as well, wrapped in telechelic polymers, or black lead polymers. Tethered, could be the polymers made of different things, like chains in a prison matrix of the skin. These would be the monomers or precursors of this evil.
===========================Carnegie Mellon, puppets for the NWO regime:
Spherical Particles
Spherical Particles: The functionalization of the surfaces of many solids; including silica (SiO2), gold, silver, germanium, PbS, carbon black, iron oxides and other metal oxide systems has been achieved, (many references are provided in reference 1 below) allowing for subsequent attachment of initiators for the ATRP of many monomers forming organic/inorganic hybrid
www.cmu.edu/maty/materials/Nanostructured-materials/spherical-particles.html
================================================
ATRP:
==============
About Atom Transfer Radical Polymerization (ATRP)
Atom Transfer Radical Polymerization (ATRP) is among the most effective and most widely used methods of controlled radical polymerization (CRP). ATRP allows scientists to easily form polymers by putting together component parts, called monomers, in a controlled, piece-by-piece fashion. Assembling polymers in such a manner has allowed scientists to create a wide range of polymers with site specific tailored functionalities targeting specific properties for high value applications. For example, polymers created using ATRP have been used for coatings and adhesives, and are currently under investigation for use in the medical and environmental fields.
Until the discovery of ATRP, polymer chemists were severely limited in their ability to control the composition and architecture of macromolecules, making it difficult to provide materials with highly specific, uniform characteristics. Since the mid-1950s, many chemists attempted to develop a “living” or controlled radical polymerization process that would create well-defined polymers in a simple, inexpensive manner. In the mid-1990s, several laboratories across the world surmounted this vexing problem by developing CRP methods. These techniques allow synthesis of fundamentally new materials with complex, well-defined nanoscale architectures. In 1995, Carnegie Mellon University Professor Krzysztof Matyjaszewski discovered one of the first — and most robust — CRP methods, copper-mediated ATRP. The seminal paper was published in the Journal of the American Chemical Society and has been cited over 3,000 times and the initial 1995 patent applications close to 200 times.
ATRP differs significantly from earlier conventional radical based polymer manufacturing methods by allowing scientists to produce complex polymer structures using a special catalyst that adds one or a few subunits (monomers) at a time to a growing polymer chain. This living, synthetic process can be shut down or re-started at will, depending on how the temperature and other conditions of the reaction are varied. ATRP is an exceptionally robust way to uniformly and precisely control the chemical composition and architecture of polymers as well as the uniform growth of every polymer chain, while employing a broad range of monomers.
www.cmu.edu/maty/about-atrp.html