Scientists Develop New Method to Detect ‘Nanorobots’ in Covid-Vaxxed

Scientists have revealed that they have developed a new novel detection method for the nanotechnology in Covid mRNA “vaccines.”

The development was revealed in a study recently posted on social media by BeyondBio CEO John Catanzaro and American cardiologist Dr. Peter McCullough.

The study details research into a novel detection method for nanotechnology within the Covid injections.

In the “Conclusion” section of the study’s paper, the researchers write:

“In summary, we have demonstrated simple and efficient plasmonic-magnetic nanorobot-based SARS-CoV-2 RNA detection assay.”

The researchers began by explaining how the novel pandemic led to exotic technology injections.

In the “Abstract” section, they explain:

“The coronavirus disease 2019 (COVID‐19) has prompted an urgent demand for nanotechnological solutions towards the global healthcare crisis, particularly in the field of diagnostics, vaccines, and therapeutics.

“As an emerging tool for nanoscience and technology, micro/nanorobots have demonstrated advanced performances, such as self-propelling, precise maneuverability, and remote actuation, thus hold great potential to provide breakthroughs in the COVID-19 pandemic.”

They then went into their detection method for this exotic technology.

“Here we show a plasmonic-magnetic nanorobot-based simple and efficient COVID-19 detection assay through an electronic readout signal,” the researchers write.

“The nanorobots consist of Fe3O4 [iron oxide] backbone and the outer surface of Ag [silver], that rationally designed to perform magnetic-powered propulsion and navigation, concomitantly the probe nucleic acids transport and release upon the hybridization which can be quantified with the differential pulse voltammetry (DPV) technique.”

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Nanorobots, also called nanobots (a form of nanotechnology) are defined by the researchers.

In the “Introduction” section, they explain:

“Micro/nanorobots are small-scale artificial machines that are rationally designed to perform predefined tasks by converting various energies into mechanical motion and various chemical triggers to perform the designed action.

“In particular, micro/nanorobots have been exploited to enhance the analytical performance in biosensing applications.”

The researchers detailed the atomic-level mechanisms that the Covid “vaccine” nanotechnology uses to self-assemble.

They documented which metals are used by the technology, how they bind together, and for what purpose.

Another recent study also documents the phenomenon of this nanotechnology.

In the “Introduction” section of the study’s paper, the researchers write:

“Here, we present a simple and efficient COVID-19 detection assay with plasmonic-magnetic nanorobots through an electronic readout platform (see Scheme 1).

“As a nanoscale building block of nanorobots, the Fe3O4/Au/Ag nanoparticles (NPs) were synthesized by a sequential chemical reduction method.

“Firstly, under 10 nm Au seeds were formed on the Fe3O4 NPs, which facilitates nucleation and growth of high-density Ag particles, leading to the hierarchically structured Fe3O4/Au/Ag NPs.

“The nanorobots were readily fabricated by assembling Fe3O4/Au/Ag NPs into rod-shaped microaggregates, which enables controllable propulsion and navigation under the rotating magnetic field.

“Also, the Ag surface of nanorobots provides the probe DNAs tagging and releasing site depends on hybridization reaction.

“The magnetic actuation of probe DNA-tagged nanorobots led to promoted target binding reaction with their complementary nucleic acids.”

Based on the nature of the nanotechnology, the researchers were able to demonstrate a pathway for detecting it.

They explain that they use electromagnetic systems.

“The resulting hybridized duplex can be released from the nanorobots due to the change of electrostatic properties,” the researchers write.

“Thus, the quantifying remnant probe DNAs by electrochemical signal confirms the detection of target nucleic acids.

“Exploiting these versatile concepts, we demonstrated magnetically actuated nanorobot-based detection of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA.

“Experimental results verified the nanorobot swarming enhanced sensing efficiency, with nanomolar detection limit and high selectivity.

“Further, the clinical applicability of the proposed assay was validated using extracted SARS-CoV-2 viral RNA samples.”

Furthermore, the researchers stated that the detection method they developed could be utilized for various other areas of research.

In the “Conclusion” section of their paper, the researchers note:

“This strategy is versatile to extend targeting various nucleic acids, thus it could be a promising detection tool for other emerging infectious diseases, environmental toxins, and forensic analytes.”

READ MORE – Doctor Drops Bombshell: ‘Blinking Lights’ Found in Blood of Covid-Vaccinated

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