Nanotech Biosensors

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Nanotechnology plays an important role in developing nano-sized biosensors, such as sensors used for synthetic telepathy and remote neural monitoring. To ensure synthetic telepathy technology works at great distances and via satellite, biological sensors must be involved to create a handshake for the AI signal. Biosensors are used as an analytical device to detect biological information in a targeted person or from the environment. Thus, biosensors are used to detect bio-molecular interactions in living things, like human beings, and then send that biological information into the sensor that transduces it into an electrical signal that creates a feedback loop back into a computer network. Essentially, it is a probe that integrates a biological component with an electrical component, in order to yield a measurable signal that can be processed by a computer interface or internet wireless technology.

Biosensors integrate biological and physicochemical properties for emitting extremely low electromagnetic signals that are being produced to communicate with artificial intelligence networks and wireless technologies, that collect and send back the gathered biological information for larger analysis. Various kinds of nanomaterials are applied to biosensors which enhance their sensitivity and specificity of detection in defining ranges of electrical signal emissions, bio-chemicals, light properties and DNA-RNA genetic sequences, that displays the results to an operator through an interface.

Biosensors, especially those sensors embedded into nanoparticles like Smartdust, are so small as to remain unseen by the naked eye. These are currently being used and experimented with in diagnostic and clinical settings in the mainstream western medical sciences, as well as in military application like chemtrails. Smartdust is a system of tiny microelectromechanical systems, such as sensors, robots or other devices that can detect light, vibration, magnetism, temperature and chemicals. Smartdust and neural dust are operated on wireless signals feeding back sensor information into artificial intelligence computer networks, which are further used to perform a variety of tasks that are programmed by the operator.

Neural dust also allows for wirelessly powered bundles of artificial nerve sensors that collect ranges of data, to be sent back to brain-computer interfaces that are used for a variety of synthetic telepathy applications, where that statistical data can be further analyzed or leveraged. Neural dust more specifically can activate action potentials in a cell, spiking nerve impulses, which is the central role of cell to cell communication. These interactions allow the cells to communicate with each other, building cell connectivity in response to changes that are occurring in the environment. This means the propagation of artificial signals being wirelessly transmitted are being designed for inciting action potential and nerve impulses in the cells of a biological person, which interferes with the natural signals that occur in cell to cell communication. Extremely low frequencies artificially transmitted into the electromagnetic field directly affects intercellular communication. Cell to cell communication is necessary for not only maintaining healthy cell tissue, but in the natural biological function of cellular telepathy. Loss of communication signaling between the cells in a human body, results in entropy of the cell, which causes diseased cells, and this spreads cancer and tumors.

Nanotech biosensors can be injected directly through vaccinations, coated in a film on pharmaceutical pills, inhaled from nanoparticle sprays, and placed in the food and water supply where it would remain undetected through current conventional methods used by the public agencies that provide overall quality testing. Nanoparticles can also cross cell membranes. It has been reported that inhaled nanoparticles can reach the blood and reach other organ systems accumulating in the liver, heart or blood cells. There are almost no publications on the effects of engineered nanoparticles on animals and plants in the environment, and this is not accidental.

Internet of Things (IoT)

An example of multiple interfaces that could interact with synthetic telepathy technology in the mainstream would be the network of physical devices that are included in the Internet of Things. The concept and implementation of the Internet of things (IoT) is being pushed by the Controllers at this time for greater ease of “smart home” technologies that open the door to in-home surveillance through an array of embedded nanotech biosensors. This hard push for building wireless infrastructure for smart cities everywhere on the globe, is another desperate attempt to maintain mind control over the asleep population, while the coup taking down the dark cabal is happening behind the scenes.[1]

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See Also

Synthetic Telepathy