"Gold “super atoms” could unlock scalable, customizable quantum computing. (Artist’s concept.) Credit: SciTechDaily.com. Researchers found that gold “super atoms” can behave like the atoms in top-tier quantum systems—only far easier to scale. These tiny clusters can be customized at the molecular level, offering a powerful, tunable foundation for the next generation of quantum devices." (ScitechDaily, Gold Nanoclusters Could Supercharge Quantum Computers)
The thing. That makes nanoparticles intelligent. It is an intelligent carrier. That intelligent carrier makes those nanoparticles travel into the desired cells. That intelligent carrier can be some virus. Or it can be the nutrient. That makes other cells transport those nanoparticles into the desired cells. The effect of nanoparticles. It is not like regular chemicals. In regular chemicals. It is a reactive component that the chemical reaction neutralizes. That means one chemical compound or molecule is single-use.
The nanoparticle interacts with electric impulses or acoustic oscillations. So when a nanoparticle travels in cells. It doesn’t lose its reactive component. In the cell. The acoustic resonance of those nanoparticles conveys. Into their environment. And forms waves that can destroy the cells. Those oscillations and acoustic waves can also destroy other molecules. Than just DNA.
This can deactivate poisonous compounds in the environment. Or those acoustic signals can help to make 3D ultrasound images. The nanoparticle can be chemically neutral. Or, it can even be gold. Golden nanoparticles can supercharge quantum computers. But they can supercharge medical research.
A nanoparticle that goes into the cell. And starting to oscillate. It can damage the cell. The nanoparticle can be grown on the virus's shell. And if those viruses can transport things like DNA to the desired cells. Those nanoparticles can be connected to the DNA. And the virus can launch it. Into those cells.
Above: "Silver nanoparticles built on viral biotemplate kill more bacteria and slow resistance rise" (Phys.org)
Nanoparticles can form on the shell of viruses. Those nanoparticles can be frozen to extremely low temperatures, where they form superatoms. That thing is possible with silver. And maybe, it's possible for gold.
The acoustic oscillation also. Offers a possibility to create. 3D ultrasound images. This type of system. That benefits acoustic waves. That comes inside. Can be the acoustic versions of the Positron-Emission Tomography, PET scanners.
The nanoparticle can act as the structure that forms a bubble around it. If the acoustic signal makes those particles oscillate. That makes them send pressure impulses into cells. Just observed memory in some atomic nuclei. It could be used in the future to create nanotechnology. When radioactive nuclei release one neutron.
There forms an empty hole. This kind of phenomenon could, maybe, be used in the molecules. Where the atom or atom’s line will touch in the place of the released neutron. Systems like self-assembly molecules. The idea is that when a neuron travels out from an atom. Its size will turn a little bit smaller. That pulls the particle to that atom, if it's close enough. That thing can be used. In the new types of nanotechnology. Which uses radioactive decay.
For making atoms touch each other at the right points of the molecule. In that model, the radioactive atoms are in the precise right points in the molecule. Then, if the wanted atoms are near those radioactive touching points. And the system can predict the decay. That can be useful to create new chemical compounds. Or chemical compounds. That has the reactive components in precisely the right points of the molecules.
Viruses can operate. As platforms for. All kinds of nanoparticles. The nanoparticles can act as part of quantum computers. And those things can make almost everything.
If the nanoparticle is connected to a bacteriophage. It can travel to the desired bacteria. But there is a possibility to connect them to nutrients. Nanoparticles can travel into cells that use certain nutrients. Nanoplastics are one type of nanoparticles. Those particles are extremely dangerous if they travel to small blood vessels and block them. If that thing happens in the brain, it can cause problems with memory and other brain functions.
When nanoparticles completely block some blood vessels. That denies their ability to transport nutrients and oxygen to cells, which those little blood vessels feed. That can cause cell death, which can turn into gangrene.
https://phys.org/news/2025-12-silver-nanoparticles-built-viral-biotemplate.html
https://scitechdaily.com/gold-nanoclusters-could-supercharge-quantum-computers/
https://scitechdaily.com/physicists-observe-a-nuclear-memory-thought-impossible/
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