Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the Body byPlanet Today
9/14/2023 11:27:00 AM via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
An official study has revealed that
cell phone signals can be used to release biological or chemical payloads from
graphene oxide that’s introduced into the human body via mRNA jabs.
The paper,
published in September of 2022, is entitled, “Remotely controlled
electro-responsive on-demand nanotherapy based on amine-modified graphene oxide
for synergistic dual drug delivery.”
The study reveals how a cell phone can
emit signals to activate a low voltage current that interacts with Graphene
Oxide (GO) molecules, causing efficient delivery of drug payloads:
This study
aims to determine low-voltage-controlled dual drug (aspirin and doxorubicin)
release from GO surface. Here, we have demonstrated how to control the drug
release rate remotely with a handy mobile phone, with zero passive release at
idle time.
Naturalnews.com reports: Because of its extremely high surface area
and complex structure composition, graphene oxide turns out to be the perfect
molecule for delivery of biological or drug payloads inside the body. From the
study:
These advantages make GO an extremely potential nanocomposite material
as a drug carrier in the field of biomedicine and biotechnology, while being
combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals
Activates Payloads From mRNA Injected Into the Body]
Importantly, the presence
of a specific frequency of a low voltage current is all that’s necessary to
cause graphene oxide to release its payload.
5G cell tower signals create micro
currents inside the body
Read more
An official study has
revealed that cell phone signals can be used to release biological or
chemical payloads from graphene oxide that’s introduced into the human
body via mRNA jabs.
The paper, published in September of 2022, is entitled, “Remotely
controlled electro-responsive on-demand nanotherapy based on
amine-modified graphene oxide for synergistic dual drug delivery.”
The study reveals how a cell phone can emit signals to activate a low
voltage current that interacts with Graphene Oxide (GO) molecules,
causing efficient delivery of drug payloads:
This study aims to determine low-voltage-controlled dual drug
(aspirin and doxorubicin) release from GO surface. Here, we have
demonstrated how to control the drug release rate remotely with a handy
mobile phone, with zero passive release at idle time.
Naturalnews.com reports: Because of its extremely high surface area and
complex structure composition, graphene oxide turns out to be the
perfect molecule for delivery of biological or drug payloads inside the
body. From the study:
These advantages make GO an extremely potential nanocomposite
material as a drug carrier in the field of biomedicine and
biotechnology, while being combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the
Body]
Importantly, the presence of a specific frequency of a low voltage
current is all that’s necessary to cause graphene oxide to release its
payload.
5G cell tower signals create micro currents inside the body
via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
An official study has
revealed that cell phone signals can be used to release biological or
chemical payloads from graphene oxide that’s introduced into the human
body via mRNA jabs.
The paper, published in September of 2022, is entitled, “Remotely
controlled electro-responsive on-demand nanotherapy based on
amine-modified graphene oxide for synergistic dual drug delivery.”
The study reveals how a cell phone can emit signals to activate a low
voltage current that interacts with Graphene Oxide (GO) molecules,
causing efficient delivery of drug payloads:
This study aims to determine low-voltage-controlled dual drug
(aspirin and doxorubicin) release from GO surface. Here, we have
demonstrated how to control the drug release rate remotely with a handy
mobile phone, with zero passive release at idle time.
Naturalnews.com reports: Because of its extremely high surface area and
complex structure composition, graphene oxide turns out to be the
perfect molecule for delivery of biological or drug payloads inside the
body. From the study:
These advantages make GO an extremely potential nanocomposite
material as a drug carrier in the field of biomedicine and
biotechnology, while being combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the
Body]
Importantly, the presence of a specific frequency of a low voltage
current is all that’s necessary to cause graphene oxide to release its
payload.
5G cell tower signals create micro currents inside the body
via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
An official study has
revealed that cell phone signals can be used to release biological or
chemical payloads from graphene oxide that’s introduced into the human
body via mRNA jabs.
The paper, published in September of 2022, is entitled, “Remotely
controlled electro-responsive on-demand nanotherapy based on
amine-modified graphene oxide for synergistic dual drug delivery.”
The study reveals how a cell phone can emit signals to activate a low
voltage current that interacts with Graphene Oxide (GO) molecules,
causing efficient delivery of drug payloads:
This study aims to determine low-voltage-controlled dual drug
(aspirin and doxorubicin) release from GO surface. Here, we have
demonstrated how to control the drug release rate remotely with a handy
mobile phone, with zero passive release at idle time.
Naturalnews.com reports: Because of its extremely high surface area and
complex structure composition, graphene oxide turns out to be the
perfect molecule for delivery of biological or drug payloads inside the
body. From the study:
These advantages make GO an extremely potential nanocomposite
material as a drug carrier in the field of biomedicine and
biotechnology, while being combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the
Body]
Importantly, the presence of a specific frequency of a low voltage
current is all that’s necessary to cause graphene oxide to release its
payload.
5G cell tower signals create micro currents inside the body
via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
An official study has
revealed that cell phone signals can be used to release biological or
chemical payloads from graphene oxide that’s introduced into the human
body via mRNA jabs.
The paper, published in September of 2022, is entitled, “Remotely
controlled electro-responsive on-demand nanotherapy based on
amine-modified graphene oxide for synergistic dual drug delivery.”
The study reveals how a cell phone can emit signals to activate a low
voltage current that interacts with Graphene Oxide (GO) molecules,
causing efficient delivery of drug payloads:
This study aims to determine low-voltage-controlled dual drug
(aspirin and doxorubicin) release from GO surface. Here, we have
demonstrated how to control the drug release rate remotely with a handy
mobile phone, with zero passive release at idle time.
Naturalnews.com reports: Because of its extremely high surface area and
complex structure composition, graphene oxide turns out to be the
perfect molecule for delivery of biological or drug payloads inside the
body. From the study:
These advantages make GO an extremely potential nanocomposite
material as a drug carrier in the field of biomedicine and
biotechnology, while being combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the
Body]
Importantly, the presence of a specific frequency of a low voltage
current is all that’s necessary to cause graphene oxide to release its
payload.
5G cell tower signals create micro currents inside the body
via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
An official study has
revealed that cell phone signals can be used to release biological or
chemical payloads from graphene oxide that’s introduced into the human
body via mRNA jabs.
The paper, published in September of 2022, is entitled, “Remotely
controlled electro-responsive on-demand nanotherapy based on
amine-modified graphene oxide for synergistic dual drug delivery.”
The study reveals how a cell phone can emit signals to activate a low
voltage current that interacts with Graphene Oxide (GO) molecules,
causing efficient delivery of drug payloads:
This study aims to determine low-voltage-controlled dual drug
(aspirin and doxorubicin) release from GO surface. Here, we have
demonstrated how to control the drug release rate remotely with a handy
mobile phone, with zero passive release at idle time.
Naturalnews.com reports: Because of its extremely high surface area and
complex structure composition, graphene oxide turns out to be the
perfect molecule for delivery of biological or drug payloads inside the
body. From the study:
These advantages make GO an extremely potential nanocomposite
material as a drug carrier in the field of biomedicine and
biotechnology, while being combined with a polymer or inorganic matrix.
[Study Reveals 5G Signals Activates Payloads From mRNA Injected Into the
Body]
Importantly, the presence of a specific frequency of a low voltage
current is all that’s necessary to cause graphene oxide to release its
payload.
5G cell tower signals create micro currents inside the body
via @planettoday #PlanetToday: https://www.planet-today.com/2023/09/study-reveals-5g-signals-activates.html
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