GRAPHENE oxide in COVID-19 'Vaccines' (Dr. Pablo Campra / El Toro TV)
Orwell City pres. Prof. Pablo Campra / El Toro TV
(world orders review)
Dr. Pablo Campra / El Toro TV (GRAPHENE oxide in COVID-19 'Vaccines')
(Dr. Pablo Campra REPORT*) GRAPHENE in COVID-19 'Vaccines'
(Pre-view Review) https://www.bitchute.com/video/DAZwGP2CZ4ha/
On the IMPORTANCE of DR. PABLO CAMPRA's TECHNICAL REPORT
(Dr. José Luis Sevillano) https://www.bitchute.com/video/eQZDUSsgHj0j/
COUNTER-ANALYSIS of the Campra Report (#Questions for Quinta)
Dr. Campra Delivers Official Response to Would Be Dis-creditors
Graphene oxide, Micro-Raman Analysis, Vaccination Vials
[Original report] *DocDroid [PDF] https://www.docdroid.net/29HNzDI/informe-campra-pdf
[Report in English by NotOnTheBeeb] https://www.notonthebeeb.co.uk/post/breaking-dr-campra-proves-graphene-in-vaccine
(full transcript) https://www.orwell.city/2021/11/vivir-con-salud.html
Dr. Pablo Campra recently gave an exclusive interview for Vivir con Salud, a health program of El Toro TV, in which he was asked for details about the technical report on the detection of graphene oxide in vaccines against COVID-19.
This is a key interview if you want an update on what graphene oxide is and what damage it causes in the organism, aside from to get to know how Dr. Campra detected it in several vaccination vials. Orwell City once again does the hard work and brings the interview to us in English.
Juan Zaragoza: Welcome back, after this break that we have made for the advertisement. Today we have a surprise, as we mentioned before, and we're going to talk about a topic that isn't talked about much. And when it's talked about, it's shrouded in controversy. But I think it's important to talk about it. And to talk about it, moreover, with rigor. And that's why today we have the privilege of having with us... He's with us, online, the professor and doctor Pablo Campra Madrid. He's a full university professor. He has a doctorate in Chemical Sciences and a degree in Biological Sciences. Welcome, Mr. Pablo.
Normally, graphene oxide in its pure state is intended to have only one layer. So that the viewers can understand it. Can you give us an example of graphite so that they know what it is. Sure. Graphite is a hexagonal mesh of carbon, like a network where six carbon atoms are joined in hexagon, but in which there are many overlapping layers and joined by bonding. So, that gives it different properties. Graphene isn't just a layer. It has very special physical and electromagnetic properties, which is why its applications are sought.
We have analyzed, specifically, in this second batch, seven of the samples that have arrived. Because that's, also, a difficulty: to get vials of a total of four different vaccines. And from each vial, we have taken a series of minimum samples, 10 microliters, and we have tried to detect this material. The analysis that has been done is qualitative, not quantitative. It was simply a detection analysis. To find out whether this material is present or not. To try to look for that structure that is detected by spectroscopy.
In a second phase, what we'd have to do is to quantify how much is there. And then, also, to carry out a more universal study. A statistically significant study of a much larger number of vials to know what's the degree of presence of these products. Whether it's only the result of contamination in those batches or to find out the extent of this presence. It's potentially toxic product. And that's what has to be evaluated, and that's not covered by the emergency authorization. Neither in the FDA nor in the European EMA.
So, the work we have done is simply a counter-analysis, a contrast independent of what's declared to figure there. And we're only working on the graphene hypothesis because I'm working on this hypothesis because was put to me. But some several other possible substances and objects have been described by other researchers that would need to be investigated as well.
Well, we have focused on Raman spectroscopy, which is called micro-Raman because it uses the microscope. It couples the image of very small objects —of micro-metric or nano-metric size— on which a monochromatic laser is focused, and a signal called spectrum can be obtained. It's specific to the structure....
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