Section 222
For a moment, the researcher couldn't help but sigh: "I now want to invite the author of this paper to our institute to do research. With him here, our research will definitely be more effective with half the effort."
Several people around laughed.
"You think well."
"Xiao Yi now has a science island laboratory and can he come to our corner?"
"It's better not to harm a talented young man. Here, we'd better let us old guys persevere."
"People can also make some major achievements in other areas. Why don't they come to us and study invisible coatings every day? We have done it, and for confidentiality reasons, we cannot let others know. Those achievements they have made, but they are all It can bring glory to the country.”
Hearing the opinions of the people around him, the first researcher rolled his eyes, waved his hand, and said, "Okay, okay, I'm just saying this, why are you so violent in your reaction?"
"Don't talk to me about this. Don't bring trouble to others. I think you are just worried that if Xiao Yi comes over, you will feel ashamed if someone just makes some results."
The others were not embarrassed by being exposed. They laughed and said, "Come on, isn't it the same for you old boy?"
The researcher shrugged and then said: "Okay, let's not talk so much nonsense. This model will be of great help to us in studying invisible coatings. Let's start working."
He pointed at the people present, "Don't forget, the H20's stealth performance has not yet met our requirements."
"Now that we have this model, we need to improve the stealth performance a little bit without saying anything, and at least convince the people at the Radar Research Institute."
Upon hearing this, the researchers present immediately became serious.
Just kidding, they are absolutely in competition with the people who are doing radar research in China.
If the invisible coating they created could be discovered by the radar developed by those people, they would definitely be laughed at by those people.
"That's right."
"Work, work."
With that said, they each started their research tasks.
…
At the same time, on the other side, in the research institute responsible for studying radar.
"Hey, have you seen this EIRM model?"
One researcher waved the paper in his hand and said to the other researchers present.
Soon, someone responded: "Look, this model is really powerful. It has great significance for research in many fields of interface science."
"Indeed, this thing is also very useful for studying our radar."
"A bunch of materials required by phased array radar all have requirements for interface research. Now that we have this model, it will also be helpful in designing related materials in the future."
"What you said all makes sense, but I want to remind you that this model is far more useful to the people who are working on invisible materials than it is to us. You don't want to be laughed at by those people. Bar?"
"Hold the grass, that makes sense."
"Work, work."
Subsequently, this group of researchers also devoted their energy to research.
People who study stealth materials don't want to be laughed at by people who study radar, and the reverse is also true.
After all, with China's current international environment, the probability of fighting with foreign countries is too low. It is difficult for the technologies they have developed to have a chance to be verified in actual combat, so their imaginary enemies can only be placed on domestic opponents.
On the battlefield, radar and stealth fighters are natural enemies, so among researchers, those who study radar and those who study stealth materials have become natural competitors.
If you want to prove your achievements, you can only use your competitors as a stepping stone.
Of course, it is probably this competitive relationship that has made China the world leader in both radar technology and stealth technology.
…
As time goes by, the influence of the EIRM model continues to ferment.
It can be called a comprehensive model in the field of interface science. The electron-interface reaction migration model has a huge effect on too many fields.
For example, the above fields of stealth materials and radar fields.
Almost any material may involve interface research.
Even the first wall materials in the field of controllable nuclear fusion require interface design.
Different interface designs can also affect the ability of the first wall material to resist neutron irradiation - of course, this has nothing to do with electron migration.
All in all, EIRM is more related to the reaction process with electron migration behavior on the interface. Although it cannot include the entire interface science, the fields it can be applied to are broad enough.
Suddenly, researchers around the world became increasingly restless.
Especially those foreign scholars are getting more and more noisy because Xiao Yi's paper is in Chinese. Although there are quite a few translated versions, there are still quite a few people who hope that Xiao Yi can write it himself. Publish a translated version.
So much so that quite a few researchers have begun to sign a petition calling for [Xiao Yi, please return to the international academic community! 】.
But no matter what, those translated versions are actually enough for them to read.
Speaking of this, something happened in the middle. Someone posted the translated paper on arxiv, trying to take the paper for themselves, but it was obvious that the paper was criticized not long after it was posted, and it was deleted within just two hours.
…
In the Science Island Laboratory.
"The download volume has exceeded 10,000."
Liu Xiaodong and several others gathered in front of the computer, looking at the page above.
And this page is Xiao Yi's personal website.
The paper on the EIRM model has exceeded 10,000 downloads.
Chen Tao couldn't help but say: "If it weren't for the fact that this paper is in Chinese, the download volume would probably be even higher, right?"
"That's for sure. It's estimated that the versions downloaded abroad are translated by others." Tang Chunming said.
"Will Brother Xiao's paper have a chance to break through 10,000 citations?"
"Although it won't happen in the short term, it is entirely possible in the long term."
"What's 10,000? Look at Brother Xiao's paper on absolute electronic calculations. The number of citations is about to break 2,000. After a few decades, maybe his paper will be on the citation ranking list."
"I think it's possible."
"Add one."
At this moment, a voice came from behind: "What are you looking at here?"
They turned around and saw Xiao Yi coming over.
Several people gathered around him and shouted, "Brother Xiao."
Although Xiao Yi is much younger than them, this does not prevent them from calling him brother.
Just kidding, should they call him brother?
As for calling Professor Xiao or Director Xiao, it seems a bit unfamiliar, after all, they have been together for so many days.
So it is normal to call him brother Xiao.
"Congratulations to Brother Xiao for his popular paper!"
Liu Xiaodong went up to flatter him.
The others followed one after another.
"Congratulations, Brother Xiao! Congratulations, Brother Xiao!"
Xiao Yi pulled the corner of his mouth: "Okay, okay, don't do it in this barber shop."
Liu Xiaodong smiled and asked: "I see that many people want you to publish the English version now, why don't you publish it?"
Xiao Yi waved his hand: "There are already so many translated versions, I'm too lazy to translate."
"Okay, don't be idle here, here, according to my data and design process, start synthesizing new lithium phosphorus sulfur chlorine electrolytes."
He took out a few A4 papers and handed them to them.
Liu Xiaodong and others' eyes lit up immediately.
"Brother Xiao designed it so quickly?"
"Let me see, let me see."
Soon they each took a piece of paper and looked at the preparation process listed on it, and their eyes lit up.
"This design... is amazing!"
"I think it should work this time!"
"Let's go! To the laboratory!"
Then, they all took action with full enthusiasm.
Xiao Yi smiled slightly.
After the EIRM model was completed, he first used it in the design of lithium phosphorus sulfur chlorine.
After so many days of hard work, coupled with the optimization design based on the material, he finally found the most suitable preparation process.
Seeing the excitement of the four people in front of him, he followed and joined the preparation work.
First, prepare several raw materials such as lithium sulfide, phosphorus pentasulfide and lithium chloride. After weighing the required amount according to the proportion, mix them in a glove box filled with inert gas, and then put them in a ball mill for ball milling to ensure that the materials are fully mixed and reacted. After that, heat treatment is performed to promote the reaction of the materials and form LiPSCl solid electrolyte.
Of course, these are just basic processes. In order to make the properties of lithium phosphorus sulfur chlorine meet the requirements of the model, other means need to be added in the middle, and there is also a doping modification process.