From University Lecturer to Chief Academician

Chapter 395 Double the performance of lithium batteries! Novotini: The worst worst worst news!

"So, you discovered the first-order lithium element?"

"It is possible."

"Maybe...Academician Wang, I feel that if I put it on you, it might be affirmative!"

"There are still other situations. The only thing that is certain is that the lithium carbonate has been magnetized by a strong annihilation force field, and the ionic properties of lithium have been enhanced."

"What does this mean?"

"Maybe it's the effect of first-order lithium? After all, the magnetization has more than doubled..."

"If you explain carefully, well, electron transitions lead to changes in electrons and nuclei, allowing lithium to appear in an ion state, affecting a specific magnetic field..."

"STOP!"

"Academician Wang, we already know."

"knew?"

"Huh? Well... that's right."

"..."

Several people went to the material testing center together.

Along the way, Wang Hao briefly explained the experimental findings.

Zhang Lin and Mr. Zhu understood the general idea, their moods were very complicated, some were depressed, some were excited, and...complicated.

They were frustrated that it was not clear what the experimental findings represented.

Excited, of course, because the experiment has progressed.

This is also the reason for the complicated mood.

The research speed is too fast, so fast that people feel caught off guard. The reason why the science and technology department encounters the embarrassment of orders is because the research and development speed is too fast.

When they were still selling first-order iron materials in units of 'grams', their research had progressed to manufacturing in units of 'kilograms' or even larger.

The normal research and development logic is like this-grams, ten grams, hundred grams, kilograms, ten kilograms, hundred kilograms, tons.

The annihilation force field experiment group directly skipped the few units in the middle, making people unable to react in time.

For the first time, they discovered that developing too fast can also cause trouble.

Now the problem of the first-order iron material order has not been resolved, and the experimental team has discovered the first-order lithium... What should I do?

This kind of experimental discovery usually directly publishes the results, and it is even more necessary to publish when it involves the discovery of advanced elements.

The discovery of each upgraded element will involve research in other fields.

For example, first-order iron.

Iron is the most commonly used metal element, and its application covers all aspects of life, including some high-end materials.

After the first-order iron element is discovered, the results must be published so that other scientific research departments, such as alloy research, can use first-order iron for research, laying the foundation for large-scale applications in the future.

Even if the relevant results are not published, as long as other institutions obtain the materials, they will also know the existence of first-order iron.

The so-called 'confidentiality' is simply deception, and it is meaningless.

The same goes for other upgrade elements.

Lithium is also widely used, and as long as follow-up research is carried out, it will definitely be known by other institutions.

As for not studying?

That's real short-sightedness.

After discovering a new step-up element, not publishing the results and just doing small-scale confidential research is not much better than not discovering it.

Just look at the first-order iron element.

The production quantity of first-order iron is extremely rare, and many companies only purchase it in units of 'grams'. Even after further research by many institutions, they only understand the physical and chemical properties of first-order iron, and there are very few achievements in other aspects. Not to mention, alloy research directly related to applications.

If the first-order iron has more research results, it will be able to achieve a wider range of applications.

Only in this way can more economic benefits be brought about.

Amidst the complicated emotions of Zhang Lin and Mr. Zhu, they entered the laboratory of the Material Testing Center together.

Zhou Qing was already waiting there.

He was holding an experimental data report in his hand, and he handed it over directly after seeing Wang Hao, with an obviously excited expression on his face.

Wang Hao read the report very seriously, "From the data point of view, lithium carbonate has indeed undergone some changes. It is very likely that some lithium elements have become first-order lithium."

"That's how we see it too." Wang Hui and Zhou Qing nodded together.

Wang Hui said, "Academician Wang, just like your judgment, the step-up can indeed enhance the ionization characteristics, and it has also been enhanced a lot. If the ionization energy of the first-order lithium is measured, the value will definitely be unexpected."

"This may have something to do with the reactivity of lithium."

Wang Haodao, "I didn't expect the data to be so high. I discussed it with others, and it may be related to a special magnetic field generated by the strong annihilation force field of the upgraded element."

"Special magnetic field?"

"right?"

Wang Hao put down the report in his hand and said, "This is just a conjecture, and it's not certain yet. We believe that the magnetic field excited by the strong annihilation force field of upgraded elements may be different from that of conventional elements."

"Different magnetic fields..."

Wang Hui thought about it carefully, and asked puzzledly, "Magnetic field, can there be any difference? Magnetic fields can be superimposed, and different magnetic fields will be the same when put together?"

Wang Hao pursed his lips lightly, "This still needs to be studied."

Instructor Wang Hui is interested in this topic, "If there is such a variable magnetic field as you mentioned, what characteristics will it have?"

"I think we can start from the direction of electromagnetic induction?"

"You can also try."

"but……"

The two started discussing the topic.

Both Zhang Lin and Teacher Zhu felt their heads were a little big, and it was not easy to disturb them standing on the side, so they could only pretend to listen carefully.

Zhou Qing suddenly said, "Academician Wang, Professor Wang, excuse me... Of course it's okay to do research and discussion, but haven't you noticed the point?"

"The point?"

Several people looked at the past together.

Zhou Qing said, "The ionization properties of lithium carbonate have been enhanced. This probably means that the ionization properties of lithium element compounds passing through a strong annihilation force field will be enhanced."

"Think about it, what does this mean?"

Zhou Qing continued to ask and answer, "This means that the storage capacity of batteries made of this lithium element compound can easily be increased by more than two times!"

He said a little excitedly, "The same battery, twice the power storage!"

"The current new energy vehicles can run a maximum of 600 kilometers. If it is doubled, it can run 1,200 kilometers, directly from the capital to Donggang!"

"Internationally, there has been no breakthrough in lithium battery technology for a long time!"

"This is a qualitative breakthrough!"

Wang Hao and Wang Hui listened calmly.

Both Zhang Lin and Teacher Zhu were a little excited. Just now Wang Hao and Wang Hui were talking about research issues, but they didn't understand at all.

What Zhou Qing said was straightforward and easy to understand, and they understood it immediately.

The current experimental findings represent that lithium battery technology will usher in a revolutionary take-off!

really.

This is the point!

In recent years, there has been no breakthrough in the research of lithium batteries. The reason is that there is a technical upper limit to the performance of lithium batteries.

The capacity of lithium batteries is directly related to the characteristics of the chemical materials used, the weight of the materials, etc.

There are only a few chemical materials used in conventional lithium batteries. If you want to increase the capacity of lithium batteries, you can only increase the weight of chemical materials. To a certain extent, it means increasing the volume of lithium batteries.

Many manufacturers of lithium batteries, in order to increase the battery capacity, either increase the volume of lithium batteries, or reduce the volume occupied by other materials.

The former is not worth the candle.

As the size of the battery increases, its use will be limited, and it will also cause a chain reaction in the design of other components.

The latter will reduce the service life and increase safety risks.

Some lithium batteries have a high capacity, but after repeated charging and discharging, the capacity of the battery will rapidly decay; some lithium batteries lack internal safety materials, and when certain conditions are met, spontaneous combustion may be found, bringing great safety risks.

etc.

In short, the development of lithium batteries has been hit by a technical ceiling, and it is almost impossible to achieve a qualitative breakthrough in performance. Because of this, many battery manufacturers will invest a lot of money to research other battery technologies.

It's different now!

The increase in the ionization characteristics of lithium element compounds is tantamount to a fundamental breakthrough, which will definitely lead to a qualitative leap in the performance of lithium batteries.

Zhou Qing, Zhang Lin, and Teacher Zhu were very excited just thinking about it, and couldn't help discussing, "It still contains very little first-order lithium. If the first-order lithium element is extracted separately, and then synthesized into carbonic acid Lithium experiments?"

"At that time, the effect will definitely be better, several times, or even ten times?"

"This is unlikely!"

"There is a greater improvement for sure!"

"The ionization characteristics of lithium carbonate are improved, and other lithium element compounds will also be improved. Lithium carbonate is a battery cathode material, and other lithium compounds can be tested, such as ternary lithium, lithium iron phosphate..."

"Academician Wang, when will you conduct the next experiment?"

"..."

Wang Hao didn't participate in the topic, he just watched and listened calmly, but he still had thoughts in his heart.

The enhanced ionization properties of lithium elemental compounds are sure to bring huge economic benefits.

If a new company can be established to specialize in the production of magnetized lithium-based materials and first-order iron materials, it will certainly be able to easily realize huge profits like a superconducting material company.

So……

"Do you have my shares?"

"Even if there is no... a large bonus, and secondly, there will definitely be no shortage of funds for the annihilation force field experiment in the future."

That's good news.

The others didn't know what Wang Hao was thinking, they just looked at his calm expression, and their hearts were not full of sighs.

"Academician Wang, you are really virtuous!"

"We have said so much, and we are all excited about the economic prospects of first-order lithium. To put it bluntly, it can bring huge economic benefits..."

"It's still money!"

"Where is Academician Wang? Academician Wang doesn't care about money at all, and his expression doesn't move."

"I think, for Academician Wang, exploring the bottom-level mysteries of science is more important than anything else. Probably because of this, Academician Wang can complete so many research..."

...

Zhang Lin and Teacher Zhu went back with excitement.

The head of the science and technology department, Mr. Xu, immediately organized a high-level decision-making meeting after hearing the news.

The new news is too shocking.

The high-volume fabrication of first-order iron and the enhanced ionization properties of magnetized lithium elemental compounds represent enormous scientific and economic value.

At present, first-order iron is only used for scientific research, but with mass production capacity, it will quickly move from scientific research to marketization and realize large-scale applications.

There are too many application scenarios for first-order iron.

In some high-end material fields, iron is one of the indispensable elements.

The physical properties of primary iron are stronger, and it can be used to make high-end alloys in the early stage.

In the research direction of first-order iron alloys, China has great advantages. First-order iron can only be manufactured in China, and the advantages of raw materials will be continuously magnified in technical research.

The reason why China is weak in many material fields is that it is not on the same starting line as foreign countries.

When domestic research was just started, foreign countries had mature technologies that occupied the market. If they had a dominant position in a certain field, they would be able to dominate the market in many application directions in the future.

The same goes for first-order lithium.

Although the existence of first-order lithium is still uncertain, the ionization characteristics of lithium element compounds are enhanced, and it can be said that applications can be directly realized.

If magnetized lithium materials are manufactured on a large scale, even if the price is relatively higher, it will definitely occupy many high-end battery markets.

At the same time, high-capacity lithium batteries can also be used in many fields such as aviation, aerospace and military.

These can bring huge economic benefits.

In the 21st century, the economy is the most important thing.

The development of many fields depends on the support of the economic foundation.

For example, the military.

If a country's economy is poor, military development will be severely restricted, and wars cannot be fought at all.

In short, the economy matters, matters, matters...

In the face of huge economic and scientific research interests, the science and technology department, together with the military and other high-level officials, quickly made a decision on the research of strong annihilation force.

They're forming two new Oblivion Field teams.

One is a team that specializes in the study of F-rays and belongs only to the military.

The other relies on the technical support of the annihilation force field experiment group to manufacture a new strong annihilation force field generating device, which is specially used for the manufacture of first-order iron and magnetized lithium element compounds.

The latter can form a new company.

In this way, the annihilation force field experiment team had to be split, and some original core members were assigned to other teams, and they would work as the core figures of the new team.

Many team leaders have been transferred away.

Wang Hao didn't care too much about this, because the research had already hit a bottleneck, and it would take time to improve if he wanted to improve, or to make new breakthroughs on a theoretical basis.

The latter is difficult, don't think about it for now.

For the former, it doesn't matter if some people leave, at least the original core of the team has not left.

For example, He Yi, Yan Jing, Xiang Qiansheng and others all stayed.

They were originally researchers at the Antigravity Behavior Research Center and professors at Xihai University, so naturally they would not be assigned to other teams.

These people are enough.

At the same time, there is good news.

The science and technology department has sent a group of newcomers, all of whom are top experts and scholars from various institutions. They are responsible for researching advanced materials and belong to the material testing center attached to the annihilation force field experiment group.

Simply put, the scale of Wang Hui's laboratory has expanded.

Research on upgrading materials has received strong support from higher authorities.

...

International Annihilation Theory Organization.

Empoli Cooper, Bill Bryan, Juraj Novotini and others gathered in an office, discussing the next equipment research issue in a semi-conference.

There is good news.

American determined that the annihilation organization will carry out scientific research grants, with a total amount of up to 4 billion US dollars, which will be specially used to manufacture the next strong annihilation force field generation equipment.

American made a move, and other cooperating countries and institutions will naturally follow up quickly.

The Annihilation organization can start to demonstrate the next device.

Several people sat in the office and discussed continuously.

Bill Bryan and Juraj Novotini kept saying that they hoped to conduct more sufficient demonstrations so that the second device could create a stronger annihilation force field.

Bill Bryan expressed his opinion, "The technical solution of the new equipment can actually wait for the research of first-order iron."

"First-order iron is produced through a strong annihilation force field, and some characteristics may be related to technical solutions..."

"Makes sense."

Juraj Novotny agrees with Bill Bryan.

For the technical solution of the new equipment, they really have to be careful and carefully demonstrate, otherwise, once the design is finalized, it will be very difficult to correct it later.

If the device has already been crafted, the strength of the crafted Annihilation Field is fixed.

It is very difficult to improve.

Juraj Novotini sighed, "It would be great if there were more first-order iron materials, and we can conduct more research to understand the relationship between first-order iron and force fields."

"Now, it's less than a gram..."

Bill Bryan also smiled wryly. He never wanted to get more first-order iron materials, but unfortunately they didn't have the funds to buy them.

One gram, one hundred million dollars, too expensive!

They could only obtain extremely small amounts of first-order iron materials through cooperative institutions.

Empoli Cooper sat in front of the computer and did not speak for a long time, mainly because he was not a top scholar and had no right to speak in the face of technical issues.

Of course, he has long been used to it.

Now Empoli Kubo has a weird expression, because he saw a news that just came out, very hot news.

He watched it over and over again, feeling a little dazed.

When he heard Bill Bryan's exclamation, he said casually, "Mr. Bryan, maybe you don't have to worry about the materials."

"Come and see, there is good news!"

"Florist's science and technology department announced that it has made a major breakthrough in research, and has decided to subsidize 10 kilograms of first-order iron materials for each gram of order..."

"A subsidy of 10,000 times is really unimaginable!"

Brian and Novotini were taken aback for a moment. They immediately searched for relevant news and saw the above news.

It's been a long time...

Novotini looked at Empoli Kubo in shock, and asked, "Mr. Kubo, do you call this good news?"

Empoli Cooper raised his head with a distressed expression.

He also wanted to understand.

Novotini took a deep breath and said loudly, "This is simply the worst, worst, worst news I've heard this year!"

"Arguing for a second device?"

"Technology catch-up?"

"Let's not talk about the second device, even the third or fourth... It's impossible to catch up, it's impossible!"

"It's never possible!"

"Of course, nothing to us..."

"Empoli, you'd better think about it, how to explain it to the American Department of Energy!"

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