The richest man starts with black technology

The life science and medical laboratory in Jiangcheng Science and Technology New District is preparing a new production line.

This production line was originally a spare production line for digestive bacteria, and is now being recruited for the construction of ionizing bacteria production.

There are two last two tests on ionizing bacteria.

A reproduction rate and survival rate, this involves the production cost of ionizing bacteria, and the production cost is related to the application of future products.

If the cost of a standard-sized ionizing bacteria microbial battery is too high, even if the technology is advanced, no one will use it.

Take the mobile phone battery as an example. The replacement of a lithium battery is no more than one or two hundred, which most consumers can afford.

If the manufacturing cost of a bio-battery is much higher than that of a lithium battery, it is also difficult to promote.The inability to apply technology is meaningless for Zhou Xiao to increase the monopoly value.

The second test is the success rate.

The current laboratory tests on batteries only test one or two batteries individually, without involving a wider range.

The laboratory needs to produce a large number of bio-batteries and run them for a long period of time to obtain specific data on the operation of bio-batteries, which is the so-called yield rate.

However, laboratory tests do not hinder the publication of academic papers.

A special issue of "Biomedical Technology" was published.

Yan Jing, Institute of Physics, Summer Academy of Sciences.

Director Zou Wentian went to work like yesterday.

The Institute of Physics is currently undertaking a new energy project-lithium-sulfur batteries.

In the new energy industry, Xia Guo also has a relatively leading position in the world, which is an inevitable trend in the development of Xia Guo's science and technology industry.

There are two reasons.

One is that Xia Guo is still a country with relatively poor traditional energy resources.

Although we are a big oil producer, we are also a big consumer. The oil produced by Xia Guo is far from being able to meet the needs of industrial and social development. A large amount of oil depends on imports from overseas.

One of the biggest drawbacks of imported oil is that it is easily affected by overseas situations.

In many cases, Xia Guo’s companies invested billions in oil extraction and refining in a major oil-producing country. As a result, the other side's war broke out and the company lost everything.

The second reason is that in traditional energy-based industrial industries, Xia Guo's technology is a bit behind the West, and new energy must be used to overtake vehicles.

For example, Xia Guo lags behind the developed countries of Omi in the traditional automobile industry, and has been cut from leeks for decades by Western countries.

If you want to surpass the Western auto industry, the traditional right-and-go will not be able to catch up with other people's auto industry that has been developed for more than a hundred years. The only way to overtake is to use new energy sources.

The new energy industry is not the industry of a certain automobile company, nor is it the industry of a certain battery company, but the collective industry of many Xia Guo enterprises and scientific research institutes.

The lithium-sulfur battery researched by the Institute of Physics of the Academy of Sciences is regarded as one of the ideal choices for the next generation of high energy density battery systems.

The project has a research direction, but the development process is very painful.

The current key technical bottleneck restricting the practical use of lithium-sulfur batteries is how to achieve low electrolyte consumption, high electrode density and low inactive material content under high active material loading conditions (10mgcm2).

This bottleneck is not so easy to break through.

Zou Wentian was very unhappy looking at the experimental report submitted by the researchers that still had no results. His head was very painful and he threw the report aside.

Suddenly, Wentian Zou saw another magazine "Biology and Medical Technology" on the table.

Seeing this magazine, Zou Wentian was stunned.

I am the director of the Institute of Physics, and this office is also the office of the Institute of Physics. Did the logistics staff who issued the magazine make a mistake? How did the biomedical magazines be placed in their office?

Zou Wentian is very careful in doing things, and he has strict management of his subordinates and logistics personnel.

Because in scientific research, there is no such thing as sloppy, one is one, two is two, and there is no such thing as possible.

Zou Wentian called the logistics team to ask about the situation.

The other party replied: "Today's issue of "Biology and Medical Technology" was passed to you by the Institute of Biology. They said that this issue of the journal is a special issue, and the content of the paper may be all helpful to physics research."

"So strange?" Zou Wentian hung up and picked up the magazine.

"Biology and Medicine" technology is a new academic journal. Because of the publication of several sensational papers, it has become one of Xia's heavyweight academic journals.

As soon as Zou Wentian turned to the topic of the paper, he was stunned.

"Cultivation and Application of Ionizing Bacteria".

What the hell is this topic?

Ionizing bacteria?

Ionization is a physical concept.

Bacteria is considered a biological concept, and there is still cultivation?

What a mess!

Zou Wentian opened the paper and looked at it at random.

The life science and medical laboratories of the Source Code Group have developed bacteria that can generate electricity.

Not to mention the development of this kind of bacteria, the key is that this kind of bacteria can also form a bio-battery under laboratory conditions!

According to the data, the energy density of this bio-battery is currently greater than the most advanced cobalt-lithium battery on the market.

Moreover, the cobalt lithium battery also needs to be charged.

But this ionizing bacteria actually relies on the decomposition of organic matter to generate electricity.

And the experimental data of the thesis shocked Zou Wentian!

The test reagent tube with a size of 10mm (outer diameter)×100mm (length) and a 70mm bacterial solution contains much higher electrical energy than a lithium battery of the same size.

Zou Wentian was a little confused.

He has a lot of research on new energy batteries, and has never thought that new energy batteries will be related to biology.

Zou Wentian is not a biology major. He looked a little dizzy about something in this paper, so he immediately called Qin Zhao, director of the Institute of Biology.

Qin Zhao is also studying this paper at this time.

Qin Zhao said to Zou Wentian: "Origin Group’s laboratory is really terrible! This paper is a bit fanciful, but if this paper is true, our country’s new energy industry will undergo major changes! The most impacted This is the lithium battery industry!"

Hearing this, Zou Wentian felt calm, and said, "According to what you know about the Life Science and Medical Laboratory of Origin Group, how authentic is their paper?"

Qin Zhao immediately thought of the Anyang mask, green fibrobacteria and digestive bacteria. He said: "The biological laboratory of Origin Group should be the best biological laboratory in our country, and its technical and professional level is much higher than my experiment. room."

After receiving Qin Zhao's reply, Zou Wentian felt very complicated.

If Origin Group makes a bio-battery with more powerful performance than lithium-sulfur batteries, should you do this project in your own hands?Will it still receive funds, and will there be an application market after the project is completed?

Everything is unknown.

At this time, "The Cultivation and Application of Ionizing Bacteria" caused a huge response in Xia Guo's academic circles.