Doesn’t matter. Everyone has been tagged by now ... one way or another .. please check on Psienergy on Odyssey 😢. It’s way worse than you think. Nobody has been spared the tagging .. human husbandry 😐
No. I am NOT defeated. Just frustrated.. I recently met with a Vietnam Vet & he gave me hope. Telling me stories about how low tech ran Vietnamese circles quickly ran circles around high tech us .. 😄
Thank you for your interesting and important evidence!
My general message today is regarding UNITY of ALL We the People in a serious Freedom Movement…
Why? Because WE THE PEOPLE have allowed this horrifying global mess. Americans are NOT United in a serious Freedom Movement to crush the head of this most lethal snake destroying America and the entire world!
How incredibly shameful there is little UNITY OF AMERICANS WITH SERIOUS PURPOSE as America is about to crash land!
WHAT IS THE GOOD NEWS?
The good news is the solutions are simple…
The only clause in the US Constitution that protects the White House from foreign invasion and occupation is the Natural Born Citizen requirement for the offices President and Vice President. The Constitutional Republic CANNOT be protected without enforcing this critical clause.
There is NO simpler solution to STOP the rapid demise of the USA today, than this ONE critical Constitutional issue and simple solution.
The United States of America cannot be taken over so long as only a NATURAL BORN CITIZEN can be President or Vice President.
Keep up with writer, Lex Greene @newswithviews.com…click on his name for past critical pieces!
PRAY for Gideon’s Army of 300 (Judges) as I do believe they are alive and well!
Thank you. I did not consent to quantom dot pcr tech when I was ignorant of all this information. Now I understand the crime.. The ignorant hive minded people propagate the agendas without fully intelligently discerning knowledge or seeking it. They call it dumbed down society. Last i checked reading levels are at 6th grade levels from 8th grade in 2012. The masks I agree are also contaminated. I will have to do a home test with black light or by other examples I have seen in the internet from people across in Asia,Mid East and Russia who found the nano tech fibers. The oral test is to use cranberry juice as a mouthwash to check for fibers.
Quantum dots are semiconductor nanocrystals (~ 2–100 nm) with unique optical and electrical properties (Bruchez et al. 1998; Dabbousi et al. 1997) currently applied in biomedical imaging and electronics industries. One of the more valuable properties of QDs is their fluorescence spectrum, which renders them optimal fluorophores for biomedical imaging (Alivisatos 2004; Chan et al. 2002). For instance, fluorescent QDs can be conjugated with bioactive moieties (e.g., antibodies, receptor ligands) to target specific biologic events and cellular structures, such as labeling neoplastic cells (Gao et al. 2004; Wu et al. 2003), peroxisomes (Colton et al. 2004), DNA (Dubertret et al. 2002), and cell membrane receptors (Beaurepaire et al. 2004; Lidke et al. 2004). Bioconjugated QDs are also being explored as tools for site-specific gene and drug delivery (Rudge et al. 2000; Scherer et al. 2001; Yu and Chow 2005) and are among the most promising candidates for a variety of information and visual technologies; they are currently used for the creation of advance flat-panel LED (light-emitting diode) displays and may be employed for ultrahigh-density data storage and quantum information processing (Wu et al. 2004).
Quantum dots are the tiny little nanoscale particles which have recently begun to be used in Televisions for their light emitting qualities. One company called Quantum Materials Corp, has recently secured technology which will allow them to 3D print quantum dots into products to prevent counterfeiting. The dots are printed in such a way that a unique signature is created within the product. The product's manufacturers are then able to check to see if that signature is within a given product of theirs. This technology could be used in a variety of industries as Intellectual property theft is on the rise. More details on this story can be found here: http://3dprint.com/7701/quantum-dots-3d-print/
Quantum dots are the tiny little nanocrystals which are produced from semiconductor materials.
The research was published in a new paper entitled “High-Resolution Bubble Printing of Quantum Dots,” which you can access here. The bubble printing technique allows for quantum dots to be precisely patterned on plasmonic substrates with submicron resolution of greater than 700 nm linewidth and strong adhesion. It also allows for the dots to be printed on flexible substrates and can be integrated with smartphones to realize haptic integration.
The technique works by using a single low-powered laser beam to generate a sub-micron-sized bubble at the interface of a colloidal suspension of nanoparticles and a plasmonic substrate containing a network of metallic nanoparticles. The bubble captures and freezes the nanoparticles on the substrate, and different patterns can be created depending on the movement of the stage. By using a smartphone, free-form macroscale movements can be created and replicated at the nanoscale.
Quantum Materials Corporation (otcqb:QTMM), has been researching and producing quantum dots for several years now. Quantum dots are the tiny little nanocrystals which are produced from semiconductor materials. They are so tiny, that they take on quantum mechanical properties. Today the company announced that they have secured a specific type of quantum dot technology which has been developed by the Institute for Critical Technology and Applied Science and the Design, Research, and Education for Additive Manufacturing Systems (DREAMS) Laboratory at Virginia Tech.
Quantum dots (QDs) are semiconductor nanocrystals that have a reactive core which controls their optical properties (Farré et al., 2011). These cores are made of semiconductors, as, for example, cadmium selenide (CdSe), cadmium telluride (CdTe), indium phosphide (InP), or zinc selenide (ZnSe). In general, the reactive semiconductor cores are covered by a shell of silica or a ZnSe monolayer that protects semiconductors from oxidation and enhances the photoluminescence yield. QDs are used in medical imaging, solar cells, photovoltaics, photonics, and telecommunications (Farré et al., 2011).
Due to their widespread application, it is expected that residues of QDs can reach natural environments. Metabolomics can offer valuable information in order to assess their potential risk at realistic concentrations. However, very few studies have been carried out until now.
Falanga et al. (2018) studied the effects ...
4.28.4.1.5 Quantum dots
Quantum dots (QDs) are crystalline semiconducting nanoparticles with electrical photoluminescence properties, which make them suitable not only for nucleic acid delivery but also for monitoring them in real time. Tracking with QDs has several advantages such as combining QDs with siRNA does not require chemical labeling of RNA, and QDs are brighter than most of the fluorescent dyes and QDs are far less susceptible to photobleaching (Chen et al., 2005). Moreover, surface functionalized SiQDs with 2-vinylpyridine can electrostatically bind to siRNA or miRNA. Therefore, this self-trackable gene delivery vehicle can be used to silence a target gene (Klein et al., 2009).
9.1.3.6 Quantum dots
Quantum dots (QDs) are artificial atoms with semiconductor properties, consisting of group II to VI or III to V elements. They have unique electronic and optical characteristics which can be regulated by varying the size. Therefore, QDs find many applications in Light Emitting diodes (LED), photovoltaics, photoconductors, photodetectors, biomedical imaging, markers, etc. Recently they are biosynthesized using microorganisms and plants. The major challenge in the preparation of QDs is to mix the two appropriate elements so as to get their correct valence states (Gu et al., 2012). The cells of Staphylococcus aureus at the stationary phase of growth were incubated with 5 mM of Na2SeO3 followed by harvesting and addition of 1 mM CdCl2 salt. These cells were further incubated for 12 hours to obtain intracellular fluorescent CdS0.5Se0.5 QDs. S. aureus cells initially reduce Na2SeO3 to selenocysteine and other organo-selenium compounds, after which the reduced organo-selenium compound reacts with the incoming Cd+ precursor ions to form the fluorescent CdSSe QDs.
Quantum dots (QDs) are semiconductor nanocrystals, which are the most important group of nanomaterials. Because of their unique optical properties, research in the development of various biomedical applications has been one of the most popular in the last 10 years. Most of the efforts of scientists have been aimed at the configuration of properties of nanocrystals, reducing their size, and improving their optical characteristics [[6], [7], [8], [9], [10], [11], [12], [13], [14], [15], [16], [17], [18], [19], [20], [21], [22], [23]]. There are various types of quantum dots: CdS, PbS, InP, graphene QDs, etc. [13,20,[24], [25], [26], [27], [28]]. As before, cadmium QDs outperform all others by quantum yield, half-height fluorescence peak width (FWHM), photostability and ability to set a fluorescence peak in a wide range (390–800 nm), as well as by the cost and ease of synthesis [14,23,24,29].
These robust quantum dots are essentially very small balls that confine electrons into a compressed state. This makes them auspicious for storing energy, which the electrons release as electromagnetic radiation. These emitted bundles of light — or photons — vary in color depending on how much the electrons are squeezed, or the size of the quantum dot. The smaller the dot, the higher the energy frequency, translating to bluer light.
Beyond color, scientists can exert precise control over the quantum dots to elicit other unique optics, magnetic behavior, melting temperature, and other properties.
“These properties depend on the volume of these quantum dots, and these properties really emerge from the quantum mechanical behavior of electrons in the material,” he added.
These abilities put quantum dots at the crux of modern nanotechnology and materials sciences, with versatile applications in drug delivery, television color displays, biomedical imaging, and solar energy harvesting.
I love the name of this substack - Outraged Human. That actually made me laugh out loud tonight. If you're not outraged, you need to check your pulse!
I haven’t been able to sleep since I learned about the 2-way connection to internet with our bodies .. 🤯
Great self study and linkage of articles. Thanks for featuring my work too. Keep on it. Thanks for sending the links too.
Thank you for your great research!
I never took one and won't.
Doesn’t matter. Everyone has been tagged by now ... one way or another .. please check on Psienergy on Odyssey 😢. It’s way worse than you think. Nobody has been spared the tagging .. human husbandry 😐
😂
Please check out nonvaxer420 channel on Rumble. All of the SCIENCE is there .. what do you think AI healthcare is all about. And it’s not an optional
program .. for ANYONE.. good luck 🍀 🙏
Not joking. Please don’t laugh at science you have no clue
I know you're not but it seems you're a defeated Julie and I am most definitely not.
Darn spell check. Defeated. Not defeated.
No. I am NOT defeated. Just frustrated.. I recently met with a Vietnam Vet & he gave me hope. Telling me stories about how low tech ran Vietnamese circles quickly ran circles around high tech us .. 😄
It’s good to see the details of what saw already in July,2022:
https://rayhorvaththesource.substack.com/p/no-need-for-any-more-vaccinations
I am recommending this article as the best and most accessible explanation for laypeople.
Or they'll have something to blame if people have adverse effects.
Good work, mate!
So.. how do we stop the creative medicine man from using the human race as lab rats?
Collectively and individually!
Unity of The People in a serious freedom movement is what our enemies fear the most!
Too late 😢
WOW! Probably one of the most concisive reports on Nano technology poisoning that I’ve read yet! Well written!
Thank you 🙏 thank you 🙏 🙏 for putting these links together. I’m trying to educate everyone I know about the nano technology & what’s going on.
Also let’s all please pray 🙏 for Sabrina ..
Outraged human and all,
Thank you for your interesting and important evidence!
My general message today is regarding UNITY of ALL We the People in a serious Freedom Movement…
Why? Because WE THE PEOPLE have allowed this horrifying global mess. Americans are NOT United in a serious Freedom Movement to crush the head of this most lethal snake destroying America and the entire world!
How incredibly shameful there is little UNITY OF AMERICANS WITH SERIOUS PURPOSE as America is about to crash land!
WHAT IS THE GOOD NEWS?
The good news is the solutions are simple…
The only clause in the US Constitution that protects the White House from foreign invasion and occupation is the Natural Born Citizen requirement for the offices President and Vice President. The Constitutional Republic CANNOT be protected without enforcing this critical clause.
There is NO simpler solution to STOP the rapid demise of the USA today, than this ONE critical Constitutional issue and simple solution.
The United States of America cannot be taken over so long as only a NATURAL BORN CITIZEN can be President or Vice President.
Keep up with writer, Lex Greene @newswithviews.com…click on his name for past critical pieces!
PRAY for Gideon’s Army of 300 (Judges) as I do believe they are alive and well!
NORTH AMERICAN LAW CENTER
Do you really believe there will be an election held in 2024
And of course there is not 100,000+ natural born US citizens who are not cabal devotees.
and no doubt including the store bought home test kits
https://open.substack.com/pub/neomicroscopy/p/hello-blood-research-substack-im?r=1yb1yj&utm_campaign=post&utm_medium=web
NOTICE THE CIRCUITS INSIDE THE RBCs
https://open.substack.com/pub/neomicroscopy/p/dental-anesthetic-anomalies-part?r=1yb1yj&utm_campaign=post&utm_medium=web
WATCH THE CIRCUITS FORM
Thank you. I did not consent to quantom dot pcr tech when I was ignorant of all this information. Now I understand the crime.. The ignorant hive minded people propagate the agendas without fully intelligently discerning knowledge or seeking it. They call it dumbed down society. Last i checked reading levels are at 6th grade levels from 8th grade in 2012. The masks I agree are also contaminated. I will have to do a home test with black light or by other examples I have seen in the internet from people across in Asia,Mid East and Russia who found the nano tech fibers. The oral test is to use cranberry juice as a mouthwash to check for fibers.
Wow. Makes me realize once again:
Never could I imagine that the world could be so corrupt
Game’s been rigged from the get-go but now the jig is up!
We shall not die by the pen! Really! Could it be they supply the ink? Another joke on humanity.
Beyond outraged...
May the warriors rise up in the final defiance.
Please give a reference URL explaining "quantum dots" - Thanks
Please read:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1367826/ A Toxicologic Review of Quantum Dots: Toxicity Depends on Physicochemical and Environmental Factors - PMC (nih.gov)
Applications of Quantum Dots
Quantum dots are semiconductor nanocrystals (~ 2–100 nm) with unique optical and electrical properties (Bruchez et al. 1998; Dabbousi et al. 1997) currently applied in biomedical imaging and electronics industries. One of the more valuable properties of QDs is their fluorescence spectrum, which renders them optimal fluorophores for biomedical imaging (Alivisatos 2004; Chan et al. 2002). For instance, fluorescent QDs can be conjugated with bioactive moieties (e.g., antibodies, receptor ligands) to target specific biologic events and cellular structures, such as labeling neoplastic cells (Gao et al. 2004; Wu et al. 2003), peroxisomes (Colton et al. 2004), DNA (Dubertret et al. 2002), and cell membrane receptors (Beaurepaire et al. 2004; Lidke et al. 2004). Bioconjugated QDs are also being explored as tools for site-specific gene and drug delivery (Rudge et al. 2000; Scherer et al. 2001; Yu and Chow 2005) and are among the most promising candidates for a variety of information and visual technologies; they are currently used for the creation of advance flat-panel LED (light-emitting diode) displays and may be employed for ultrahigh-density data storage and quantum information processing (Wu et al. 2004).
https://3dprintboard.com/showthread.php?4264-3D-Printing-Quantum-Dots-to-Secure-Intellectual-Property
Quantum dots are the tiny little nanoscale particles which have recently begun to be used in Televisions for their light emitting qualities. One company called Quantum Materials Corp, has recently secured technology which will allow them to 3D print quantum dots into products to prevent counterfeiting. The dots are printed in such a way that a unique signature is created within the product. The product's manufacturers are then able to check to see if that signature is within a given product of theirs. This technology could be used in a variety of industries as Intellectual property theft is on the rise. More details on this story can be found here: http://3dprint.com/7701/quantum-dots-3d-print/
Quantum dots are the tiny little nanocrystals which are produced from semiconductor materials.
https://3dprint.com/174927/bubble-printing-quantum-dots/
The research was published in a new paper entitled “High-Resolution Bubble Printing of Quantum Dots,” which you can access here. The bubble printing technique allows for quantum dots to be precisely patterned on plasmonic substrates with submicron resolution of greater than 700 nm linewidth and strong adhesion. It also allows for the dots to be printed on flexible substrates and can be integrated with smartphones to realize haptic integration.
The technique works by using a single low-powered laser beam to generate a sub-micron-sized bubble at the interface of a colloidal suspension of nanoparticles and a plasmonic substrate containing a network of metallic nanoparticles. The bubble captures and freezes the nanoparticles on the substrate, and different patterns can be created depending on the movement of the stage. By using a smartphone, free-form macroscale movements can be created and replicated at the nanoscale.
https://outraged.substack.com/p/quantum-tagging-is-murder
https://3dprint.com/7701/quantum-dots-3d-print/ (https://www.qmcdots.com/)
Quantum Materials Corporation (otcqb:QTMM), has been researching and producing quantum dots for several years now. Quantum dots are the tiny little nanocrystals which are produced from semiconductor materials. They are so tiny, that they take on quantum mechanical properties. Today the company announced that they have secured a specific type of quantum dot technology which has been developed by the Institute for Critical Technology and Applied Science and the Design, Research, and Education for Additive Manufacturing Systems (DREAMS) Laboratory at Virginia Tech.
https://www.sciencedirect.com/topics/earth-and-planetary-sciences/quantum-dot
4.3 Quantum dots
Quantum dots (QDs) are semiconductor nanocrystals that have a reactive core which controls their optical properties (Farré et al., 2011). These cores are made of semiconductors, as, for example, cadmium selenide (CdSe), cadmium telluride (CdTe), indium phosphide (InP), or zinc selenide (ZnSe). In general, the reactive semiconductor cores are covered by a shell of silica or a ZnSe monolayer that protects semiconductors from oxidation and enhances the photoluminescence yield. QDs are used in medical imaging, solar cells, photovoltaics, photonics, and telecommunications (Farré et al., 2011).
Due to their widespread application, it is expected that residues of QDs can reach natural environments. Metabolomics can offer valuable information in order to assess their potential risk at realistic concentrations. However, very few studies have been carried out until now.
Falanga et al. (2018) studied the effects ...
4.28.4.1.5 Quantum dots
Quantum dots (QDs) are crystalline semiconducting nanoparticles with electrical photoluminescence properties, which make them suitable not only for nucleic acid delivery but also for monitoring them in real time. Tracking with QDs has several advantages such as combining QDs with siRNA does not require chemical labeling of RNA, and QDs are brighter than most of the fluorescent dyes and QDs are far less susceptible to photobleaching (Chen et al., 2005). Moreover, surface functionalized SiQDs with 2-vinylpyridine can electrostatically bind to siRNA or miRNA. Therefore, this self-trackable gene delivery vehicle can be used to silence a target gene (Klein et al., 2009).
9.1.3.6 Quantum dots
Quantum dots (QDs) are artificial atoms with semiconductor properties, consisting of group II to VI or III to V elements. They have unique electronic and optical characteristics which can be regulated by varying the size. Therefore, QDs find many applications in Light Emitting diodes (LED), photovoltaics, photoconductors, photodetectors, biomedical imaging, markers, etc. Recently they are biosynthesized using microorganisms and plants. The major challenge in the preparation of QDs is to mix the two appropriate elements so as to get their correct valence states (Gu et al., 2012). The cells of Staphylococcus aureus at the stationary phase of growth were incubated with 5 mM of Na2SeO3 followed by harvesting and addition of 1 mM CdCl2 salt. These cells were further incubated for 12 hours to obtain intracellular fluorescent CdS0.5Se0.5 QDs. S. aureus cells initially reduce Na2SeO3 to selenocysteine and other organo-selenium compounds, after which the reduced organo-selenium compound reacts with the incoming Cd+ precursor ions to form the fluorescent CdSSe QDs.
https://outraged.substack.com/p/quantum-tagging-is-murder
https://www.sciencedirect.com/science/article/abs/pii/S0009279723000637?via%3Dihub
Quantum dots (QDs) are semiconductor nanocrystals, which are the most important group of nanomaterials. Because of their unique optical properties, research in the development of various biomedical applications has been one of the most popular in the last 10 years. Most of the efforts of scientists have been aimed at the configuration of properties of nanocrystals, reducing their size, and improving their optical characteristics [[6], [7], [8], [9], [10], [11], [12], [13], [14], [15], [16], [17], [18], [19], [20], [21], [22], [23]]. There are various types of quantum dots: CdS, PbS, InP, graphene QDs, etc. [13,20,[24], [25], [26], [27], [28]]. As before, cadmium QDs outperform all others by quantum yield, half-height fluorescence peak width (FWHM), photostability and ability to set a fluorescence peak in a wide range (390–800 nm), as well as by the cost and ease of synthesis [14,23,24,29].
https://outraged.substack.com/p/2-nobel-prizes-for-tagging-humans
https://www.thecrimson.com/article/2023/10/6/nanoscience-bawendi-chemistry-nobel/
These robust quantum dots are essentially very small balls that confine electrons into a compressed state. This makes them auspicious for storing energy, which the electrons release as electromagnetic radiation. These emitted bundles of light — or photons — vary in color depending on how much the electrons are squeezed, or the size of the quantum dot. The smaller the dot, the higher the energy frequency, translating to bluer light.
Beyond color, scientists can exert precise control over the quantum dots to elicit other unique optics, magnetic behavior, melting temperature, and other properties.
“These properties depend on the volume of these quantum dots, and these properties really emerge from the quantum mechanical behavior of electrons in the material,” he added.
These abilities put quantum dots at the crux of modern nanotechnology and materials sciences, with versatile applications in drug delivery, television color displays, biomedical imaging, and solar energy harvesting.
Thanks!