Mass production of nanobots, what does this mean?

What exactly are nanobots used for, and what kind of role can they play?

In fact, Jiao Chengyue summed it up very clearly in one sentence: eliminate more than 99% of biologic diseases.

That is, bacterial and fungal infections, viral infections, cancer cell lesions in the human body, etc., all can be solved.

Kill with nanobots.

Many incurable and terminal diseases, such as AIDS, rabies, rheumatism, and leukemia, can be treated with nanorobots, allowing patients to recover quickly without having to take a variety of chemical drugs.

It can be said that it is the terminator of countless diseases.

However, the more exaggerated the capabilities of nanorobots, the more difficult it is to develop, which can be called "Zenith technology".

To use a specific analogy, nanorobots are at least ten times more difficult to manufacture than 2-nanometer chips.

Because the average diameter of a single nanobot is only 10 microns, it is slightly larger than red blood cells.

But scientists, in order to achieve three core functions in such a small volume.

One is motivation.

In order for the nanobots to have the ability to move autonomously, they can move to various parts of the body in a purposeful way, and they can concentrate their forces to destroy the lesions.

Therefore, the inside of the nanobot must have a "power source", or a device that can generate power, and ensure that its endurance is long enough to not "run out of power" and enter a state of strike paralysis after a few hours.

Best, it is powered by the ability to work for a long time, even permanently, like a perpetual motion machine.

The second is identification.

It can accurately identify harmful viruses and microorganisms, but most of the viruses and microorganisms are transparent or translucent in color, and they are not colorful and colorful, and it is not easy to judge whether they are harmful in appearance.

So you have to scan its shape.

and equip nanorobots with "precision-guided warheads" - proteases, which can be accurately matched and then killed.

The third is control.

It can be very flexible and precise control.

Instructions can be issued externally, so that nanobots can quickly concentrate on a certain area of the human body to fight a war of annihilation.

Plan a route for a single nanobot so that it won't get stuck in some dead corners and can't move.

Finally, after the disease is completely eliminated, in order to prevent the human immune system from attacking foreign objects such as "nanobots", after the battle, the nanobots have to be withdrawn from the human body and leave through the intestines or other ways.

If you want to achieve even one of the above three core functions, you have to solve hundreds of difficulties, find a few or the only successful path from countless trying paths, or try hundreds of methods, but all of them are dead ends.

For example, in order for a nanorobot to work efficiently for more than a day, its energy density must be more than 10 times that of the "Emperor 3" high-energy battery.

For example, in order to achieve precise control, a single nanorobot must be able to hold about 1MB of information and be able to send back electromagnetic waves for display and positioning.

All functions have to be integrated within an average diameter of 10 microns.

Theoretically, with the current level of human technology, nanorobots may not be able to be built in 50 years.

But Jiao Chengyue led his technical team to do just that.

Mass production of nanorobots is about to be realized.

"The nanorobot we developed can be called the first generation of nanorobots."

"Its energy system is to use a special absorbing energy storage material, which uses 3G electromagnetic waves that can penetrate the human body to irradiate, so as to obtain energy, and can reflect back 2G electromagnetic waves to roughly determine the position of each nanorobot...... Through electromagnetic wave radiation, it not only solves the problem of energy supply of nanorobots, but also solves the problem of precise control. ”

"The amount of information they can store is 800KB, which is enough to concentrate on the designated area according to the instructions, and eliminate the lesions efficiently and quickly, leaving no fish that slips through the net."

"In addition, in the later stage, we will add a 'drug' delivery function to it, deliver specific drugs to the cells with problems, solve the problems in the cells, and enhance the vitality of the cells, or inject gene repair substances into the cells with genetic defects to achieve more efficient targeted therapy."

"Its appearance is enough to declare that mankind has completely defeated disease! Break free from the shackles of nature, and will no longer be plagued by any disease or pestilence. ”

Jiao Chengyue said excitedly.

But......

He also had to point out some shortcomings and limitations of the first generation of nanobots.

For example, the power density is still not high enough, unless it is concentrated and then increases the intensity of electromagnetic wave radiation, it can burst out with a strong ability, and the speed of killing the virus can be much faster than the speed of virus proliferation.

However, if it spreads throughout the body, it is less efficient and may be rejected by the immune system.

In addition, it is susceptible to the interference and influence of various air clutter of Bluestar, resulting in a high error rate, which must be operated in an electromagnetic shielding room.

And the most lethal point is that due to the lack of power, it is difficult for the first generation of nanorobots to clean up stubborn toxins in the human body, and they cannot carry out efficient detoxification.

But there are ways to solve these problems!

"What's the solution?" Wei Ming asked.

"Build a space hospital."

Jiao Chengyue said: "In the weightless environment of space, because there is no need to overcome the influence of gravity, the work efficiency of the first generation of nanorobots can be increased by more than three times, and the toxins in human bones and internal organs can also be discharged more easily, plus there is no interference from the ground clutter environment...... Its capabilities can be maximized! ”

"Mr. Wei, just imagine, the project team of the "Longevity Plan" has overcome the problem of life extension, repaired telomeres, and easily extended human life expectancy to 150 years old. Our nanobots eliminate all diseases, but they can also help increase cell vitality, repair defective genes, and flush out stubborn toxins...... It has almost overcome the main core problems of the "Longevity Plan", and has provided human beings with the technical foundation and premise for prolonging life and restoring health and vitality. ”

"I estimate that the day the space hospital is built will be about the same as the success of the Longevity Project, so we need a space hospital."

Space Hospital?

Wei Ming muttered.

I suddenly remembered a movie I had watched, called "Elysium", in which there was such a powerful and magical space hospital that could cure all diseases, and the protagonist of the Virgin Mary put his own life into it in order to cure the disease.

Now listening to Jiao Chengyue's words, the space hospital seems to be a necessary way for human health and longevity.

"You find someone to study it, and then come up with a specific design and construction plan."

Wei Ming thought for a while and said, "If I need such a space hospital, I will find a way to get it out." ”

"Yes, Mr. Wei!"