[Chorus: Madonna]
Not everyone is coming to the future
Not everyone is learning from the past
Not everyone can come into the future
Not everyone that's here is gonna last (Gonna last)
Not everyone is coming to the future
Not everyone is coming from the past
Not everyone can come into the future
Not everyone that's here is gonna last (Gonna last)
It's the future where we come from, bein' stars
It's the future where we come from, bein' hard
It's the future where we come from, beat 'em all
It's the future where we come from, bein' boss
It's the future where you gotta pay the cost (The future)
It's the future where you come from, bein' lost (The future)
It's the future, crucifixion on a cross (Woo)
But you know that I'ma rise above it all, yeah
Someone asked me this question on Steve Kirsch Substack, so I'm sharing both the question and the answer here FYI
Q:
What do you think about the possibility that the graphene is not graphene oxide, but rather, it is graphene hydroxide?
A:
CAN YOU IMAGINE IT BEING USED IN MASKS, TESTS, INJECTIONS, FOOD, AIR, ETC.?
Dr. Noack was a real expert on the subject.... As far as I remember, he looked at the spectroscopy results provided by Dr. Campra.
If Dr. Campra was right, Dr. Noack knew the exact answer.
https://www.nature.com/articles/srep07419
But even if it wasn't hydroxide, it's still extremely sharp and toxic. These people are guilty of mass murder.
However, Dr. Noack said it is not biodegradable. But there are studies that it is biodegradable.
Physical damage is one mechanism of damage caused by graphene.
"Furthermore, the sharpened edges of GNS may act as ‘blades’, inserting and cutting through bacterial cell membranes"
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5088662/#CR173
https://pubmed.ncbi.nlm.nih.gov/20925398/
Moreover, the extremely sharp edges of graphene nanowalls were found to damage the membrane of the microorganism by direct contact
https://www.researchgate.net/profile/Xiaolong-Tu/publication/266151786_Assessing_in_vivo_toxicity_of_graphene_materials_Current_methods_and_future_outlook/links/54ed849f0cf28f3e65358d15/Assessing-in-vivo-toxicity-of-graphene-materials-Current-methods-and-future-outlook.pdf
How does graphene damage viruses, bacteria and human cells? Graphene is a thin but strong and conductive two-dimensional sheet of carbon atoms. There are three ways that it can help prevent the spread of microbes: – Microscopic graphene particles have sharp edges that mechanically damage viruses and cells as they pass by them.
http://hdreporter.com/health/9646-are-graphene-coated-face-masks-a-covid-19-miracle-or-another-health-risk
Toxicity of graphene-family nanoparticles: a general review of the origins and mechanisms -
PMC Published online 2016 Oct 31. doi: 10.1186/s12989-016-0168-y
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5088662/
In addition, several typical mechanisms underlying GFN toxicity have been revealed, for instance, physical destruction, oxidative stress, DNA damage, inflammatory response, apoptosis, autophagy, and necrosis. In these mechanisms, (toll-like receptors-) TLR-, transforming growth factor β- (TGF-β-) and tumor necrosis factor-alpha (TNF-α) dependent pathways are involved in the signaling pathway network, and oxidative stress plays a crucial role in these pathways.
Another study suggested that the irregular protrusions and sharp edges of the nanosheets could damage the plasma membrane, thus letting G entering the cell by piercing the phospholipid-bilayer (Li Y. et al., 2013). These features raise additional safety concerns, as free GRMs in the cytoplasm may lead to disruption of the cytoskeleton, impaired cell motility and blockade of the cell-cycle, similar to carbon nanotube-induced cytotoxicity. Exposed larvae displayed GO in the CNS and, most importantly, an induction of Parkinson’s disease-like symptoms such as disturbance of locomotor activity, dopaminergic neurons loss and formation of Lewy bodies. These effects were likely a consequence of mitochondrial damage and apoptosis through the caspase 8 pathway, in the presence of a more general metabolic disturbance
https://www.frontiersin.org/articles/10.3389/fnsys.2018.00012/full
Two recent studies give us a less than rosy angle. In the first, a team of biologists, engineers and material scientists at Brown University examined graphene’s potential toxicity in human cells. They found that the jagged edges of graphene nanoparticles, super sharp and super strong, easily pierced through cell membranes in human lung, skin and immune cells, suggesting the potential to do serious damage in humans and other animals.
https://newatlas.com/graphene-bad-for-environment-toxic-for-humans/31851/
Generally, GFNs may exert different degrees of toxicity in animals or cell models by following with different administration routes and penetrating through physiological barriers, subsequently being distributed in tissues or located in cells, eventually being excreted out of the bodies. This review collects studies on the toxic effects of GFNs in several organs and cell models. We also point out that various factors determine the toxicity of GFNs including the lateral size, surface structure, functionalization, charge, impurities, aggregations, and corona effect etc. In addition, several typical mechanisms underlying GFN toxicity have been revealed, for instance, physical destruction, oxidative stress, DNA damage, inflammatory response, apoptosis, autophagy, and necrosis.
https://www.sciencedaily.com/releases/2018/08/180823113613.htm
A human enzyme can biodegrade graphene
https://onlinelibrary.wiley.com/doi/10.1002/anie.201806906
Degradation of Single-Layer and Few-Layer Graphene by Neutrophil Myeloperoxidase
Good post, Outraged Human. They're always truth leak broadcasting their operations to us. We just have to have eyes to see... Appreciate that you have eyes to see. Yes, we are now in the black goo xenobot hybridnanogolem infiltration era. No escape. Detox Detox Detox. Stay on top of the antinano detox baths. If I figure out what truly works, I'll post in the comments, I'm still figuring it out.