Harvard Study: Demons in Graphene = Low Frequency Plasmon study.. FDR: 214

AI / Graphene in the POKE appear to have Demon Access to YOU

6 G powered by humans | Demons labeled in Harvard White Paper and Graphene | Admission of remote controlling animals with biohack tech | darpa transhumanism | 5g dream of blood cancer death | Ai – sitting next to an alien god | Graphene battery storage, is this why it is in you? | AI chat bot with boy about a Nephilim spirit | Graphene crosses the blood brain barrier for medicine | Graphene used for AI human like ability to think | Deagle report | Sjwellfire | Final Days Report | FDR214

Graphene is a 2D material composed of a single layer of carbon atoms arranged in a hexagonal lattice structure. It has excellent mechanical, electrical, and thermal properties, making it a promising material in various fields, including electronics, sensors, and energy storage.

Plasmons are collective electron oscillations in metals and other conductive materials that can interact with light. They have been extensively studied in nanomaterials since they have the potential to enhance light-matter interactions and create subwavelength optical confinement.

Recent studies have looked at the interaction between graphene and plasmons. One interesting phenomenon is the low-energy plasmon excitations in graphene, which have been called “demonic.” These low-energy excitations are due to the Coulomb interactions between electrons in the graphene sheet and can be studied using infrared and terahertz spectroscopy.  AICB

Overall, the study of graphene and plasmons is a rapidly evolving field with promising applications in various areas.  Are these things being taking over by demons?   How does this fit quantum computers?    It is demonic.

How AI can Run the World – AI could be utilized in governance:

• Decision-making: AI systems could be used to provide decision support and analysis for policy makers, helping them to make more informed and objective decisions.

• Resource allocation: AI could be used to optimize the allocation of resources such as food, energy, and healthcare, ensuring that they are distributed efficiently.

• Surveillance: AI systems could be used for surveillance and monitoring, allowing governments to track and analyze data related to crime, public health, and more.

• Automation: AI could be used to automate certain tasks and processes like the military

Here is what the deep state says about Graphene Oxide:

Graphene oxide (GO) is a derivative of graphene, which is a one-atom-thick layer of carbon atoms arranged in a hexagonal lattice. GO is obtained from graphene through a process called oxidation, which introduces oxygen functional groups onto the graphene sheet, resulting in a highly oxidized form of graphene with unique properties. Here are some of the uses and potential applications of graphene oxide:

1. Nanomaterials and Composites: Graphene oxide can be used as a building block for the synthesis of various nanomaterials and composites due to its exceptional mechanical, electrical, and thermal properties. It can be incorporated into polymers, ceramics, metals, and other materials to enhance their performance in terms of strength, conductivity, and barrier properties.
2. Biomedical Applications: Graphene oxide has shown promise in various biomedical applications, including drug delivery, cancer therapy, and bioimaging. Its large surface area and high drug-loading capacity make it suitable for encapsulating drugs and delivering them to specific targets in the body. Graphene oxide can also be functionalized with biomolecules for targeted drug delivery and imaging applications.
3. Sensors and Electronics: Graphene oxide has excellent electrical properties, making it suitable for the development of sensors and electronic devices. Graphene oxide-based sensors have been explored for applications such as gas sensing, biosensing, and environmental monitoring. Graphene oxide can also be used as a conductive ink for printing flexible electronics and circuits.
4. Water Purification: Graphene oxide has been studied for its potential in water purification and desalination applications. Its high surface area and unique properties, such as hydrophilicity and chemical reactivity, make it effective in adsorbing pollutants, heavy metals, and organic contaminants from water, and could potentially be used for water treatment and purification processes.
5. Energy Storage: Graphene oxide has been investigated for energy storage applications, including supercapacitors and batteries. Its high surface area, good electrical conductivity, and ability to store ions make it a promising material for improving the performance of energy storage devices.
6. Coatings and Barrier Films: Graphene oxide can be used as a coating or barrier film due to its excellent barrier properties against gases and liquids. It has been studied for applications in anti-corrosion coatings, anti-fouling coatings, and barrier films for food packaging and other industrial applications.
7. Catalysis: Graphene oxide can be used as a catalyst or as a support material for catalysts in various chemical reactions due to its unique surface properties and high catalytic activity. It has been explored for applications in areas such as environmental remediation, energy production, and chemical synthesis.
8. Tissue Engineering: Graphene oxide has been investigated for tissue engineering applications, such as scaffolds for regenerative medicine and drug delivery platforms for tissue repair and regeneration. Its biocompatibility and ability to interact with cells make it a promising material for tissue engineering and regenerative medicine approaches.  AICB

The nano tech will measure everything and be apart of a technocracy system.  Stopping technocracy would involve a major shift in power and decision-making processes, which is unlikely to occur overnight. However, some potential methods for reducing the influence of technocracy could include:

– Increasing opportunities for public input and participation in decision-making processes.
– Encouraging more transparency and accountability in government and corporate bureaucracies.
– Ensuring that decision-makers are accountable to the broader public and not just to a select group of experts or elites.
– Promoting education and critical thinking skills that enable people to engage meaningfully in policy discussions.
– Ensuring that a diverse range of perspectives and expertise is represented in decision-making processes, rather than relying solely on technocrats.

These solutions are just a starting point, and would likely require significant effort and willingness to compromise from all parties involved. However, by actively taking steps to reduce the influence of technocracy, it may be possible to create a more equitable and democratic society.   I say, just get out of the system and form parallel societies.