"Cell Membrane Nanopores Releasing IonsA representation of a cell membrane (rice) with nanopores (broccoli) releasing ions (seeds). Credit: Aleksandra Radenovic/EPFL" (ScitechDaily, Scientists Uncover How Tiny “Nanopores” Learn Like the Brain)
"Scientists found that nanopores’ electrical charges control how ions flow and when pores temporarily shut down. The discovery could allow engineers to design nanopores that “learn” like synapses for next-generation computing.” (ScitechDaily, Scientists Uncover How Tiny “Nanopores” Learn Like the Brain)
“Pore-forming proteins appear across many forms of life. In humans, they help protect the body by supporting immune defenses. In bacteria, they often function as toxins that create openings in cell membranes. These natural pores regulate the movement of ions and molecules, and their precise control over molecular transport has made them valuable in biotechnology, including DNA sequencing and molecular sensing.” (ScitechDaily, Scientists Uncover How Tiny “Nanopores” Learn Like the Brain)
Nanopores can act as artificial neurotransmitters. And they can also revolutionize medicine. And others. Types of technology. Those technologies are things. Like miniature sonar technology...
Learning nanopore. It is the tool for the next-generation machine intelligence. Learning nanopores can act like neurotransmitters in the next-generation computers. If. A nanopore is made of an electrolytic liquid. It can act as a small hard disk that transports data between the transmitter and receiver. The system can use a small electromagnetic system. Like, a miniaturized nanoradiotransmitter to write information on those nanopores. Those nanopores can operate between processors. These operate as artificial neurons. And those nanopores act as neurotransmitters or chemical qubits. The system can create those pores and then recycle the liquid that it uses. That can make it possible. To use those pores in neuro- and quantum computers.
Nanopores can act as a chemical capsule. For viruses and other chemicals. Nanopore. It can transport very reactive chemicals. Like white phosphorus. In the wanted points. In military technology. Nanopore can transport neuro-agents like VX past the sensors. In that case, a chemical weapon is encapsulated. Into the soap. Or some other non-poisonous transporter. That chemical agent is enclosed in the nanobubbles. And when those bubbles are broken. By using an acoustic signal. Or some kind of flame, like napalm, lasers, and microwaves. That releases the nerve agent.
Nanopore is. One of the most interesting things. In modern chemistry. It can act as a platform that allows long lipedi molecules to form on its shell. Nanopores and micropores can be used. To take samples from humans or other things. The nanopore can close things. Like. Viruses or some other cells inside them. The pore will surround the object. And then the nanomachine can transport that captured thing away.
The nanopore can act as an acoustic resonator. Acoustic signals can make those pores oscillate. And that makes them multiply themselves. So, a nanopore can fill the cells. Block the veins. And that makes them useful in medical use. This thing also makes them suitable for the new types of weapons. There is a possibility. The nanopore can interact with ions. Or it can have amino acids on its shell. If. The nanopore is made of the receiver’s own body fluids. That opens the path. To transport viruses into the desired cells.
Those amino acids can act as carrier proteins. That makes cells transport it to the right objects. The ion transporter makes it possible. To control the nanopore with magnetic fields. And that is one of the biggest things in this kind of system. Today, it is possible. To create a nanopore by using pistons that move back and forth in a small chamber. Another possibility is to use the whisk that rotates in the chamber.
The system can also use chemical things to make those pores. The carbon acid creates bubbles in water. Or the system can use electrolysis. For. The bubble making. Nanopore itself can be effective. The system can make them from the environment. The nanobubble or nanopore can transport molecules. The idea is that the nanopore is made from blood plasma. And then the medical molecules or viruses will be put inside those pores. The pore itself. Denies the immune system reaction against those viruses. This thing makes those pores an ultimate tool for gene therapy.
https://scitechdaily.com/scientists-uncover-how-tiny-nanopores-learn-like-the-brain/
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