English translation of the above news article
In a scientific paper prepared by a prestigious Italian laboratory, it is demonstrated through an authoritative analysis, the finding of graphene in a sample of suspension in water of Comirnaty vaccine against COVID-19 virus of the lot PAA165994.
by Italian Senator Sara Cunial
Graphene is a material formed from carbon atoms arranged horizontally to form a structure one millionth of a millimeter thin. With the flexibility of plastic and the mechanical strength of diamond, for many, graphene is the gold of the future, the key to a new industrial revolution and possibly a “new society.”
But what is this UN-INDICATED substance doing in the Pfizer vaccine? I asked Minister Speranza about it through a question that you can read in full HERE.
Here you can read how the analysis that led to the detection were carried out (analysis of which I have become aware, and that I will not make public to protect the author. However, all sources – including the study – were vetted by the office of the inspection authority prior to publication of the question).
The sample was processed as follows:
- dilution in sterile saline 0.9 percent (0.45 ml + 1.2 ml);
fractionation by polarity: 1.2 ml of hexane + 120 ul of RDI sample;
extraction of the hydrophilic phase;
extraction and quantification of RNA in the sample;
electron and optical microscopy of the aqueous phase.
Preliminary analysis, extraction and quantification of RNA in the sample was performed using the Invitrogen™ PureLink™ RNAMini Kit, NanoDrop™ 2000/2000c Spectrophotometer and Qubit 2.0 Fluorometer. The spectrum revealed the presence of a high amount of Rna or substances other than Rna with maximum uptake in the same region, with an estimated total of 747 ng/ul. Reduced graphene oxide (RGO) has absorption maxima at 270 nm, consistent with the spectrum obtained by Thema et al, 2013. Journal of Chemistry ID 150536. The minimal amount of RNA detected by QUBIT2.0 explains only a residual percentage of the total UV absorption of the sample.
Under JEM-2100 Plus Electron Microscope magnification, the same magnified region of the sample shows a sheet-like structure displaying an intricate array of long-range folds. The blades are arranged in lateral dimensions on micrometer length scales ranging from 100 nm to over 1,000 nm and compared to a literature image show a high resemblance to graphene images.