After Rose gave the order, the smart building began to get busy.

After an hour or so, the little girl re-added new recognition words to the logic system of all the robots, and then cautiously ran to Rose's side.

In order to test the robot's capabilities, Ross gave instructions one by one, and after the program was changed, the robot's execution ability was much faster. It is clear whether the instructions given by Ross were given individually or collectively.

These junior intelligent robots, although not very smart, are 100% obedient. Due to their heavy size, clumsy movements, and poor hardware, they have poor reflexes and are put into production, which is inefficient but better than no one.

Not wanting to waste any more time, Ross implanted the operating system of the nano production line into the robot's chip through wireless transmission.

It took about five hours for Ross to download all the programs into the robot's system.

With these programs, the robot is able to manipulate the nanoline to work.

The intelligent building has started half a month ago, and with the convenient building materials of tempered cement, the building speed is much faster.

The main body of the new 'nano factory' has been built, and the doors and windows inside have not been installed or renovated, and it is just a cement blank house.

Ross couldn't wait, and ordered the six major construction companies to get the first floor done first, and put it into production themselves, while the other buildings could be built slowly.

The six major construction companies received orders and began to act collectively to clean up the ground floor of the building, install doors and windows, and install water and electricity.

Ross had an arc reactor sent in. as a power source.

The ground floor of the nano factory covers an area of tens of thousands of square meters. Even if the six major companies send 100,000 people, it will take at least a week to do it well.

Ross started in the office. Formulate some blueprints for the development of nanotechnology.

Nanotechnology, with a very wide range of covers.

All nanotechnology, materials are the foundation, without advanced nanomaterials, how to talk about the development of nanotechnology.

A nanometer is the smallest unit, one meter is equivalent to 1 billion nanometers.

A human hair, generally 70,000 to 80,000 nanometers in diameter, is the thickest hair. nor no more than 100,000 nanometers.

Take nanochips as an example, the material required for this kind of chip is 'carbon nanotubes', which are only about 30 nanometers and 200 nanometers in diameter, but their performance is very strong.

Carbon nanotubes are 100 times harder than steel, but only one-sixth of the density of steel, have a tensile strength of 800 GPa, and have super elasticity like springs.

It conducts 10,000 times more electricity than copper, and this super fiber is resistant to high temperatures of about 3,600 to 3,790 degrees.

The ideal aspect ratio of carbon nanotubes is 20:1, but humans can make them. It's just 1000:1.

Six technologies for the production of carbon nanotubes have been mastered: arc discharge, laser ablation, solid-phase pyrolysis, ion laser sputtering, polymerization reaction synthesis, and catalytic cracking.

These six production processes can enable humans to manufacture carbon nanotubes, but the performance is too poor due to the backwardness of the production process. It's only 50 times its performance.

Ross knows the production process of these nanotechnologies well, and Ross manufactures carbon nanotubes. It's 100 times better than what humans think is the most perfect performance.

It is conceivable that once this super material is available. What kind of effect will it bring.

Carbon nanotubes, which are used to make resistors, semiconductors, and integrated circuit boards, will be 1,000 times smaller. The electrical conductivity, thermal conductivity, and high temperature resistance are more powerful.

Chips made of nanomaterials are only the size of a human hair, and the naked eye cannot see the parts on them except for a microscope.

This kind of hair-sized chip is more than 100 times more functional than ordinary chips.

The fibers made from carbon nanotubes are the size of a human hair, which is the thickness of an arm's steel rope.

Using robots, making preliminary nanotechnology, and then using nanotechnology to improve artificial intelligence, the two technologies complement each other, thinking about this, Ross is extremely excited.

As long as the first layer of the factory is completed and the 3000 robots are in place, nanotechnology can be started.

At that time, Ross will not only make carbon nanotubes, but also make various nanofibers.

Nano chips, nano processors, nano hard drives, and even nano metals, and nano engines can all be started.

The $10 billion in equipment and raw materials that Ross spent on was no joke.

In the office, Ross was busy designing various nano production lines, and a phone call from the Bio Building made him get up and leave the office.

After 15 days of hard work, the bioengineering went smoothly, the genes of earthworms and geckos have been completely deciphered, and the peculiarities of those base pair genes, chromosomes and DNA have been analyzed.

Tan Li called and asked Rose to go over and do genetic experiments.

Admiral Xu's illness was completely contained in these potions, and Rose did not dare to slack off, and quickly ran towards the biological experiment building.

Entering the biology building, Rose quickly put on a dust-free suit, put on a mask, and took Tan Li and several gray-haired old biology academicians into the private laboratory and began to do the experiment of extracting genes.

Ross still chooses to extract the cells first, then clone the cells, isolate those genes, and make a genetic potion that is compatible with human genes.

This is a complicated process, and Ross unreservedly taught the experimental procedures to Tan Li and several old academicians, and he didn't want to have no one to do this technique without himself.

Rose's hand speed is too fast, using various instruments hundreds of times an hour, and each step is very precise and difficult to master.

Except for Tan Li, whose brain was stimulated, several other academicians of biology shook their heads and sighed, their eyes were glazed, how could they still remember the steps of the experiment.

Time passed slowly, and with Tan Li's cooperation, it took Rose a night to finally make a few bottles of genetic potions.

That night, Rose slept for 6 hours, and many other tasks were done by Tan Li, who was cultivating her hands-on skills.

Three vials of genetic potion, one vial of blood red, with the earthworm's blood clotting gene.

This kind of gene potion, in higher dose, can make the blood coagulate quickly, if the dose is reduced, it can dilute the blood, lower blood pressure, and the medicinal value is very great.

One is a transparent potion, which is a hemolytic gene and repair gene from the body fluids of earthworms, and male and female organs.

Using this thing to make a kind of ointment, after the operation, squeeze it onto the wound, can make the wound scarring dozens of times faster, and leave no scar, this thing is also very valuable.

One is a yellow substance, in the night, this substance can emit a blue light, it can self-clone and reproduce new cells, the ability to regenerate genes is very weak, not comparable to geckos, but the potion made from it can make surgical patients' wounds heal 15 times faster.

[I heard that tomorrow's monthly pass will be doubled, I am now coding words, I hope it will break out tomorrow, and then everyone will vote for the monthly ticket, and one vote will be two votes tomorrow. (To be continued.) )