In the ever-evolving landscape of scientific advancements, a revelation has emerged that could potentially redefine our relationship with technology. A recent publication in MaterialsToday Chemistry has shed light on a discovery that’s both fascinating and alarming: cell phone signals, especially those emanating from 5G networks, can release biological or chemical agents from graphene oxide once it’s introduced into the human body.
The study, eloquently titled “Remotely controlled electrically responsive on-demand nanotherapy based on amine-modified graphene oxide for synergistic dual drug delivery,” delves into the mechanics of how our everyday mobile phones can activate low-voltage currents. These currents, when they interact with graphene oxide molecules, have the potential to revolutionize drug delivery systems.
Graphene oxide stands out in the scientific community due to its expansive surface area and intricate structural composition. It’s like a jigsaw puzzle that fits perfectly when it comes to delivering biological or drug payloads. Its potential applications in the realms of biomedicine and biotechnology are vast, especially when paired with polymers or inorganic matrices. But there’s a twist: to activate graphene oxide to release its payload, a specific frequency of low-voltage current is essential.
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Now, let’s broaden our perspective and consider the larger picture. The electrical currents generated by 5G signals within the human body have been a topic of discussion for some time. Dr. Joseph Mercola, in a thought-provoking article for Childrens Health Defense, has underscored the significant biological and chemical shifts these signals can induce in the human body. From the discomfort of pain to associations with a plethora of health challenges such as eye ailments, compromised immune function, and even fertility issues, the shadow of 5G looms large.
What’s even more unsettling is the admission from the Federal Communications Commission (FCC) regarding their lack of research on 5G safety. This revelation is eerily reminiscent of times when industries, like tobacco, manipulated data and played with public sentiment.
But the narrative doesn’t end here. Dr. Martin Pall’s groundbreaking research has brought to light that microwave radiation, the kind we’re exposed to daily from our devices, induces voltage changes within our cells. This activation of voltage-gated calcium channels (VGCCs) is significant.
These channels, integral to our cellular structure, play a pivotal role in determining the flow of substances in and out of our cells. The staggering fact? VGCCs are a mind-blowing 7.2 million times more sensitive to microwave radiation than other charged particles within our cells. This sensitivity triggers a domino effect of biochemical reactions, some of which can be detrimental to our health.
However, every cloud has a silver lining. Through nutritional interventions, such as the superoxide dismutase enzyme (SOD), we can potentially counteract some of these adverse effects. While it doesn’t neutralize the radiation, it fortifies the body’s response to cellular stress.
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In a recent development that sent shockwaves through the tech community, French regulators have raised red flags over Apple’s iPhone 12. The device, which has been in consumers’ hands since 2020, reportedly produces radiation levels that exceed legal thresholds.
Piecing together this intricate puzzle, it becomes evident that 5G signals possess the capability to induce low voltage within our bodies. This voltage, in turn, can stimulate graphene oxide molecules to release predetermined payloads. While the study’s primary focus is on the delivery of drugs like ASP and DOX, the broader implications are both vast and profound.
The Dark Side of Graphene Oxide: A Potential Weapon in Disguise!
Graphene oxide, a seemingly innocuous substance, has recently come under scrutiny for its potential to carry biological or chemical weapons as a payload. While the scientific paper cited earlier focused on the benign delivery of aspirin and an anti-cancer drug, the reality is that the payload could be far more sinister.
The versatility of graphene oxide is both its strength and its potential downfall. It can deliver both hydrophilic (like ASP) and hydrophobic (like DOX) molecules. This adaptability means that potent chemical weapons, including nerve agents that are lethal even at nanogram exposure, could theoretically be loaded onto graphene oxide molecules. These molecules could then be covertly introduced into the human body through seemingly harmless methods like vaccines or even the much-discussed COVID-19 swabs. Even more chilling is the idea that such weapons could be introduced to the public through everyday food sources.
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Imagine a scenario where these payloads, once inside the body, remain dormant, causing minor neurological damage over time. However, the real danger lurks in the shadows. With the right 5G signal broadcast at the precise frequency, these graphene oxide molecules could release their deadly payload en masse. This could result in the sudden death of vast portions of the population in areas saturated with 5G broadcasts or even make a significant portion of the population appear suddenly “infected” with a fast-spreading pandemic virus.
This technology’s potential as a “kill switch” is chilling. It could be used to eliminate any segment of the population previously inoculated with payload-carrying graphene oxide.
But the intrigue doesn’t stop there. Recent findings suggest that the “black ink” on pharmaceutical capsules might contain graphene oxide. This ink, when submerged in water, exhibits magnetic properties, as shown in a video shared with me. The magnetic field, as researchers reported in the journal Nature Physics, is generated by the collective vortex of electrons in the stacked graphene structure.
This raises the question: Is graphene also present in the ink printed on prescription pills?
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Further diving into the capabilities of graphene oxide, it’s been documented that it can transmit gigahertz signals to nearby receivers. This means that not only can graphene oxide release payloads remotely, but it can also transmit signals to other receivers nearby. The implications? A potential “chain reaction” of 5G cell tower signals being rebroadcast from one person to another, extending the reach of the initial 5G cell tower.
To summarize:
- Graphene oxide can carry a variety of payloads, from benign to lethal.
- Methods like vaccines or swabs could introduce graphene oxide into the body.
- External signals, like those from 5G towers, can control the release of these payloads.
- The combination of vaccines and 5G towers could be used as a weapon for population reduction.
Given the current global scenario, where it seems like governments are more interested in control than the welfare of their citizens, these findings are deeply concerning. The COVID vaccine, which many believe doesn’t halt the pandemic’s spread, could be used to introduce dormant graphene oxide payloads into the populace.
It’s a chilling thought: the combination of vaccines and 5G towers could be used as a weapon of mass destruction, targeting large populations almost simultaneously.
With governments worldwide seemingly intent on population control, this possibility should be a grave concern for anyone hoping to survive in this new world order.
