The rise of nanometers

July 16th.

Huang Xiuyuan came to the materials laboratory early in the morning.

After he went north to Bingcheng, Lu Xuedong, He Wen and others did not stop their research on polygonal silicon oxide.

However, considering safety, they all appeared to be more cautious during the research process. After all, the last nitrogen 20 was a high-energy material.

If you make a mistake, the consequences will be dire.

He looked at various reports from the laboratory and found that the current work was focused on "polygonal silicon oxide", "nitrogen 16", and "nitrogen 20".

Among the four subtypes of polygonal silica, they have studied more. Hexagonal silica was the first to be discovered and has been studied more.

During the research process, He Wen and others also discovered a lot of things.

For example, the elements that hexagonal silicon oxide can pass are not only nitrogen atoms, but also elements of the nitrogen family like nitrogen, that is, nitrogen, phosphorus, arsenic, antimony, bismuth, etc., which can all pass under specific voltages and vacuum negative pressures. Through the holes in the middle of the hexagonal silicon oxide.

Pentagonal silicon oxide has a special preference for carbon family elements; heptagonal silicon oxide can pass not only water molecules (dihydrogen monoxide), but also other oxygen group elements; octagonal silicon oxide also corresponds to specific Halogen elements.

The ambitious He Wen and others hope to learn from Huang Xiuyuan's experience and develop new materials.

He is also very supportive of this, but requires that safety measures be taken to avoid experimental accidents.

For now, Huang Xiuyuan still needs to further consolidate the foundation of Suiren Company, so he plans to make a material that will be popular in the future appear in the world in advance.

"Lao He, make arrangements, I want to conduct an experiment."

"Mr. Huang, please give me your instructions."

More than an hour later, the experimental equipment and materials were prepared, and in front of him was a device equipped with a "seven-sided silicon oxide-graphene film".

As soon as he came up, he tested it with pure oxygen more than a dozen times, but without success.

"Mr. Huang, why don't you try pure ozone?"

Huang Xiuyuan shook his head: "I have read your previous experimental reports, and ozone may not have any effect."

After pretending to think for a while, he immediately ordered: "Lao He, prepare liquid oxygen as raw material."

"Liquid oxygen?" He Wen was stunned and then reacted.

Among our common allotropes of oxygen, they are generally oxygen (O2) and ozone (O3), but oxygen also has two other uncommon allotropes, namely O4 molecules that exist briefly in liquid oxygen. and red oxygen (O8) found in solid oxygen.

After switching to liquid oxygen, the experiment was restarted. After more than fifty experiments, a strange red solid substance appeared at the bottom of the reactor. Although it was only a little bit, the bright red color like blood made everyone excited. .

"Is it a red oxygen molecule?"

"It's not like red oxygen, which has low temperature and high pressure, and the inside of the reactor is in a semi-vacuum state."

"It seems to be a new substance."

With eagerness, everyone carefully took out the little bit of red powder and sent it to the testing area.

After more than half an hour of preliminary testing, He Wen trotted over excitedly: "The new molecule is a new allotrope of the oxygen element, consisting of 14 oxygen atoms."

In fact, Huang Xiuyuan knew everything, but he couldn't show it too obviously. He arranged the task again: "Lao He, you lead people to continue to study the physical and chemical properties of this new molecule. I will continue to study the synthesis process and keep in touch at any time."

"no problem."

The two of them took their own people and got busy in the laboratory.

With little improvements, the amount of new molecules produced steadily increased.

As for He Wen, after more than a week of research, he quickly figured out the physical and chemical properties of the new molecule.

The new molecule is oxygen 14. The three-dimensional structure of this molecule is a "ball-like structure". It can actually be regarded as a cube, and there is a protruding oxygen atom in the middle of the six faces of the cube.

After discussion, this new molecule was named six-cone spherical oxygen.

Six-cone ball oxygen is relatively stable under normal temperature and pressure, soluble in water, and has weak magnetism. It can be attracted by rubidium magnets and thus separate from water.

These properties are all ordinary, but He Wen discovered that the six-cone spherical oxygen has a very peculiar characteristic.

That is, when electricity is applied, the six-cone ball oxygen will have a super strong temporary oxidation function, and how powerful it is.

During the experiment, even the very inactive gold element has no way to resist the "forcible robbery" of the six-cone spherical oxygen. It will be forcibly combined with the six-cone spherical oxygen to form a six-cone spherical oxygen-two gold molecules (O16Au2 ).

In a series of tests, in addition to the robbing reaction with argon atoms in the inert gas, the robbing reaction can also occur with radioactive heavy elements not available in the laboratory, such as six-cone sphere oxygen and the remaining elements.

In addition, this characteristic will disappear directly when the electricity is turned off. When the snatching characteristic disappears, the atoms previously obtained due to the snatching characteristic will immediately release their bonds with the six-cone spherical oxygen.

After He Wen studied this characteristic in depth, he once again discovered that the snatching characteristic is controllable.

This kind of controllability is mainly manifested in the temperature of the solution and the voltage of the electricity. Under a specific water temperature and voltage, the six-cone ball oxygen will produce a "soft favorite" robbing reaction for specific elements.

If it were a one-pot snatching reaction, the value might drop a bit, but with this kind of snatching reaction that can specify elements, the value would be completely different.

Even if he doesn't know much about technology commercialization, He Wen can come up with six or seven applications.

Huang Xiuyuan, who knew the basics, understood better. He ordered Du Jinhua's engineering team to modify some equipment.

July 28th.

Inside the organic fertilizer desalination workshop in Guizhuling Industrial Park.

Huang Xiuyuan, He Wen, Du Jinhua, and factory director Huang Guotong were outside the workshop.

Six or seven technicians and engineers from the engineering team are busy in the workshop, renovating the previous desalination equipment.

The desalination technology they used before was not only complicated to operate and relatively expensive, but the residual sodium chloride in the organic fertilizer was only initially up to standard.

In addition, some chemicals are used, which may cause secondary pollution and further increase the production cost of organic fertilizer.

After the transformation of the desalination workshop is completed.

Du Jinhua led people to debug for more than two hours before starting the trial operation.

From the liquefied gas refining workshop, a large amount of gas refining slag and liquid are continuously transported along the ditch to the desalination workshop.

The heated circulating pure water is injected into the slag liquid until the temperature of the liquid in the desalination tank rises to 35 to 37 degrees Celsius.

The gate on the upper side of the workshop is opened, and all the six-cone spherical oxygen powder stored in the gate is poured into the liquid, and then the power supply system arranged in the desalination tank is started.

Under the stimulation of a specific voltage, the oxygen molecules of the six-cone ball showed a super strong grabbing reaction against the sodium chloride molecules. In more than a minute, they forcibly combined the sodium chloride in the liquid with themselves.

Then inside the gate, a robotic arm stretched down. The robotic arm carried an electromagnet and was close to the surface of the liquid below.

As soon as the electromagnet comes close to the liquid, a large amount of six-cone sphere oxygen-sodium chloride is separated from the liquid and then adheres to the surface of the electromagnet.

Finally, the electromagnet was taken back, moved to the next door workshop, and the electromagnet was de-energized. In an instant, the red crystals on the surface of the electromagnet disintegrated and turned into powder falling down.

When the electromagnet is energized again, the six-cone spherical oxygen molecules in the red powder are attracted upwards by the electromagnetism again, and there is only a layer of white powder left at the bottom of the recycling tank in the workshop, which is sodium chloride powder.

The electromagnet brings the six-cone ball oxygen back to the upper side of the gate. After the power is cut off, the six-cone ball oxygen powder is deposited in the gate again, waiting for the next cycle.

Thank you all for your support (ω｀), and thank you book friends "Fish Sleeping in Bubbles", "The Road Covered with Maple Frost", "Cold and Unwilling 9406", and "Taoist Yuming" for your rewards!