As you can see from this there is a definite connection to the bees and PLA... Bees have one positive antenna and one negative this is the way they navigate so looking at the condutive polymers they are very electic in nature and would account for the lgiht that was given off in Karen's hex. en.wikipedia.org/wiki/Polymer_solar_cell
Abstract The N-linked oligosaccharides were released from the phospholipase A2 (PLA) with glycopeptidases and reductively aminated with the chromophore, p-aminobenzoic acid ethyl ester (ABEE). The ABEE-labeled oligosaccharides were separated by microbore high-performance liquid chromatography (ì-HPLC) using a reversed-phase column and analyzed by electrospray mass spectrometry. Differentiation between á-1,3 and á-1,6 core-fucosylated glycans was achieved by comparison the glycans released by glycopeptidases peptide-N-glycanase A (PNase A) and peptide-N-glycanase F (PNase F). All N-linked oligosaccharides except 3B and 3C could be identified in this approach. The analysis of PLA oligosaccharides from the venom of individual bees indicated that glycosylation patterns between the younger and the older
yep think karen and the bees to cancer may tell us what is happening to us to karen and to the bees.
High energy sacs stuck need to be released
just read all about it but I can not remember where
I wrote to Uiniversity of Alberta about it just a little and suggested they use uv light to release the ATP that much I remember they are trying D.C.A. for cancer Alberta is I wanted to let them know of Karen's success with D.C.A. and rife , infread heating pad also The acid and the U.V. degrade the poly sacs that the atp buildup in.
something about junction and pedot I think
think maybe it was in the first link in the wires , dna luquid crystals or maybe was form the u.of m. stuff I know this has been working for Karen
poly sacs with photons where does the atp come in? Must go back and reread brain fart.
Under the irradiation of light, the free electrons in a plasmonic nanoparticle are driven by the alternating electric field to collectively oscillate at a resonant frequency in a phenomenon known as surface plasmon resonance. Both calculations and measurements have shown that the frequency and amplitude of the resonance are sensitive to particle shape, which determines how the free electrons are polarized and distributed on the surface. As a result, controlling the shape of a plasmonic nanoparticle represents the most powerful means of tailoring and fine-tuning its optical resonance properties. In a solution-phase synthesis, the shape displayed by a nanoparticle is determined by the crystalline structure of the initial seed produced and the interaction of different seed facets with capping agents. Using polyol synthesis as a typical example, we illustrate how oxidative etching and kinetic control can be employed to manipulate the shapes and optical responses of plasmonic nanoparticles made of either Ag or Pd. We conclude by highlighting a few fundamental studies and applications enabled by plasmonic nanoparticles having well-defined and controllable shapes.
tash: Hi skizit, I have watched all your videos on youtube and cant thank you enough for all you have educated me on. I cry for you alot and a bit for me. I was wanting to send you photos of what is raining down everyday here in Australia in hope you can tell me
Dec 11, 2019 23:28:22 GMT -5
tash: not sure where to send them as hush mail and rocket mail bounced back
Dec 11, 2019 23:30:03 GMT -5