Because he was not familiar with it and was used to obeying at school, Weng Xingchen also agreed to the suggestions of the scientific research management system, "received" five assistants of fresh graduates in the same field assigned to him by the system, and then started the research in a daze.

Everything is no different from his school, but the advanced equipment touched him. The key is that equipment with such high energy consumption can be activated at any time, and such expensive consumables can be used in large quantities.

During this period, the scientific research management system also provided him with a large number of conjectures and experimental directions collected from various predictive scientific research papers, just as his doctoral supervisor gave him guidance.

The experiment work that is simply the perfect advanced version of the campus laboratory has begun.

In more than half a year, the task he received was not completed. Instead, the data was detailed and the path was clear, but he was somewhat confused and created a new achievement under the guidance of the scientific research management system.

According to the explanation of the scientific research management system, except for the machine tool factory, the laboratory at the headquarters has not arranged scientific research projects with too clear goals.

It only combines the scientific research fields that employees are best at and the scientific research plans they submit, and summarizes several scientific research goals with the highest relevance.

Therefore, the tasks he receives can be "appropriate" changes depending on the research progress.

And it is also during these changes that he and his small team have achieved an unexpected result.

...

Graphene is the most popular research field in materials science, no doubt about it.

Companies that are so popular that they are related to materials science or have nothing to do with it, and there must be a product that is practical or purely concept-level.

What are graphene power banks, graphene jackets, graphene masks, and even graphene antibacterial underwear, etc., it is like graphene has become an ordinary material in various fields of daily life, just like steel and plastic.

The scientific research results of his project team are of course not like this kind of dream thing that even if it cuts consumers and investors, the Buying "Dream" Group dares not play with.

Graphene is interesting. It exists naturally, but the difficulty is preparation.

Currently, there are six most mainstream preparation methods, namely mechanical peeling, oxygen reduction, orientation epiphysis, silicon carbide epitaxial, solution drying and vapor deposition.

Among them, the mechanical peeling method is the legendary method of using tape to dip the thin graphite again and again, and the thinnest layer left is graphene.

This technology seems to be the most "stupid" method and the easiest method. Even ordinary people can tear out graphene with special tape, but you don't have to think about it and understand that this method doesn't mention industrial mass production at all.

Zhongzhou is the one who has the most powerful upgrade and optimization of this technology.

Scientists in Zhongzhou have invented a simple and efficient green peeling technology, and achieved a large-scale preparation of small layers of graphene (3.8±1.9 layers) through a soft rolling transfer process between "ball-microspheres".

That is, one to five layers of graphene can be made.

However, the materials produced in batches in this preparation method cannot be effectively applied on a large scale.

Although other preparation methods are different, the kernels are similar, just like the chemical vapor deposition method in vapor deposition method.

Its main function is to melt graphene and coat it with "steam" on certain devices, such as touch screens, and heating device coating, for corrosion prevention.

The orientation epiphyseal method uses rare metal carbon infiltration process.

These processes have their own shortcomings, either in terms of output or quality.

This has led to the legendary material of graphene being placed in front of the world. Its superiority is unparalleled, but it cannot be effectively applied.

It is not as good as the carbon fiber among the Carbon Brothers next door, the fishing rods and car shells are made of, and even the aviation and aerospace fields have large-scale high-end applications.

The graphene project that Weng Xingchen started this time was initially studying the method of orientation epiphyseal, which is more difficult to control the number of graphene layers. Later, he tried a chemical vapor deposition method that is more suitable for controlling the number of layers.

Later, under the guidance of other assistants in the laboratory (Anyway, Boss Tao is not short of money, Xia Ji will try it, what if it is realized), and the scientific research management system intentionally or unintentionally guided,

Weng Xingchen's scientific research plan has been carried out many times, with small scale, uncertain direction, and ultimately unrecognizable changes.

"… Then we used the modified orientation appendage method to perform the printing operation and obtained this double-layer structure. We found that the outer layer of this structure has weak electric coupling."

Taozui wore 3D reinforcement glasses and looked at the material data model on the monitor, asking: "Weak current coupling? Chip?!"

Weng Xingchen secretly praised his boss. Although Taozui "can't understand" the entire preparation process, he was able to grasp the key points of this new material.

Taozui really doesn't understand the entire preparation process, because he only needs to know which process is the one he needs.

"That's right."

Tao Zui looked at Weng Xingchen who made a note of the 'Old Man' in the scientific research management system: "Can it be prepared stably in industrialization?"

“It’s hard.”

Tao Zui raised his eyebrows: "That's OK?"

"Well, it's not wrong to say that, it's just that the rare platinum-based metal ruthenium is needed. According to theoretical calculations, platinum-rhodium ruthenium alloys are the best, and there are a large number of ultra-thin dielectrics with good heat resistance."

Tao Zui waved his hand: "You said I don't understand that thing, can I buy it?"

"Yes!" Faced with the problem of this giant trench, Weng Xingchen nodded very seriously.

However, he still gave Tao Zui a shot:

"However, it is necessary to make a test sample that is large enough, and design a set of equipment and other expensive equipment are needed. At most, the equipment in our laboratory can draw a graphene 'line' on the sample."

"You can list me what kind of equipment and what indicators. We have our own scientific research team and machine tool production and R&D team. Whether it is research and development or ordering, I will try my best to find a way to solve it for you.

As for other equipment you can buy, you can list the best product list you can buy, and I will go to see if I can get better ones.”

I didn’t ask about the chances of success of the project or how confident he was. I just came up and said what you wanted.

Weng Xingchen was a little shocked. He was really afraid that although he had verified the thing in the laboratory several times, he was just a beautiful accident that could not continue to develop.

"That, mainly to achieve nanoscale controllable equipment, we need an ultra-vacuum scanning tunneling microscope."

Tao Zui was stunned: "I remember we have one?"

Taozui still has an impression of a big toy worth four million per unit.
Chapter completed!