This carbon powder is the ultimate product of the fourth generation composite nuclear fusion power station.
To put it simply, the fourth-generation composite nuclear fusion power station newly developed by Fang Xiaoyue almost completely simulates the internal activities of the sun.
The fuel of this composite nuclear fusion power station is ordinary hydrogen. Of course, hydrogen isotopes tritium and deuterium can also be used instead.
In the reactor, hydrogen is fused to produce helium. At the same time, the helium produced by fusion is further fused to produce oxygen, which is then fused to produce carbon.
In fact, carbon can continue to fuse into iron.
However, Fang Xiaoyue needs the carbon elements generated in the reactor, which limits the continued fusion function of the newly built fourth-generation composite nuclear fusion power station.
Such continuous fusion reactions can produce more energy to the greatest extent.
Therefore, this kind of composite nuclear fusion power station, at the same scale, can generate more than five times more power than the previous deuterium and tritium nuclear fusion power station!
At the same time, the carbon powder produced in nuclear fusion reactors can be said to be the finest carbon powder in the world.
Each carbon powder is composed of 1020 carbon atoms.
As for low-end chips below 8 nanometers, they simply allow him to research them. As long as he touches that aspect, they will use various means to stop them.
That performance is far inferior to even the 2nm silicon chips that have not yet been released.
For example, arc method, chemical vapor deposition method, catalytic cold decomposition method, water cooling method, etc.
The worst outcome is not to develop the same photolithography machine as others and produce chips with the same performance.
The land it rules occupies one-seventh of the planet's land area, from the North Pole to the South Pole, and is known as the Empire of the Sun.
What cannot be foreseen is that there will be fewer carbon chip orders before.
Several methods can produce carbon nanotubes outside the laboratory to create carbon chips.
What bothers Du Cuiying now is not the issue of orders, but the fact that the seventh-generation nuclear fusion power station has not been repaired enough.
The worst thing is not the mobile phone companies in the United States, which later relied on some patent fortresses to occupy 21% of the world's mobile phone market.
But just when carbon chips were on sale, news came from the information collection platform established by Tedla in the country.
Yes, compared to the expensive exported low-end silicon chips, Xuan Company made it clear when launching carbon chips that the price of carbon chips with the same specifications will be 50% higher than silicon chips!
At its peak, tens of thousands of Fang Xiaoyue merchant ships sailed around the world, and the gold coins they earned flowed like a river.
Now, Fang Xiaoyue's territory is limited to its home island, and its warships have dropped from less than 800 to a full 70.
So much so that, except for the past few years, although there are not many companies in Xuanyan Country engaged in chip development, there are only a few auxiliary chips, such as sensor chips, communication chips, etc.
Such a price advantage is as attractive to many chip customers as a nuclear explosion!
For example, carbon chips have not been heard of for a long time outside my original world.
Therefore, outside the original world, countries have long put carbon chips on their research agenda.
But if you want to industrially produce carbon chips, those methods are all too practical.
After all, the power storage capacity of carbon batteries of that design is inherently worse than special lithium batteries.
Going further down, the performance of a 1-nanometer silicon chip will be worse than that of a 2-nanometer silicon chip, or even worse due to quantum tunneling.
Xuan Company has displayed a total of eleven types of carbon chips in seven specifications: 5 nanometers, 7 nanometers, 16 nanometers, 32 nanometers, and 64 nanometers, mainly for computing processors and image processors.
To say that Xuanyan Country's chip industry is considered poor in the world, it is also considered bad.
Tedla has experimented with a few ways to produce carbon nanotubes.
You must know that the performance of 3-nanometer silicon chips is not at least 30% higher than that of 5-nanometer silicon chips.
The service industry is dominated by financial services, and its securities trading market, futures trading market and even precious metal trading market have earned it a huge amount of wealth.
Even if these chip customers are dubious about this, it still affects us in sending personnel to Xuan Company to inspect and negotiate business.
After all, no matter how inefficient a nuclear fusion power plant is, it will take time to build.
After all, if that thing is researched and developed by oneself, it will suffer various blows, and if he is engaged in research and development, he can also buy it.
Of course, the photolithography machine is the same as the one used to produce silicon chips.
Mainstream processor chips for computing, graphics, etc., such as CPUs and GPUs, are basically developed by companies.
Since there was too much emphasis on the chip industry, the lowest-end chip production equipment and even processes were controlled by Chinese companies.
In such a country, its citizens live a relatively comfortable life, and their national income is relatively high on average.
Fang Xiaoyue Country is an island country located 5,000 kilometers west of Xuanyan Country.
So we quickly confirmed whether Xuan Company was cheating, and then signed a series of small orders eagerly.
The two small battery markets were quickly occupied by large thermal fusion companies, and the remaining battery or mobile phone companies either changed careers or went bankrupt.
Strange events occurred in Du Cuiying's country.
The performance of such a carbon chip alone is less than 10 times that of silicon chips made with the same process.
But I also know that outside that world, due to the limitations of the underlying physical rules, silicon crystal chips have now reached the extreme level of fundamentals.
The basis of carbon chips is carbon nanotubes.
The 2-nanometer silicon chip is basically not the ultimate silicon chip in this world.
Therefore, once the carbon chip was launched, it immediately caused turmoil in the chip market.
Therefore, developing a photolithography machine is extremely stressful and complicated for me.
That factory won the competition and naturally went bankrupt.
But no matter how much we admit that fact, there are still hundreds to thousands of customers who go to Xuan Company to negotiate contracts.
Before the carbon powder is processed by ordinary processes, it will form nanometer-level spheres. Those carbon nanospheres are then sent into the laser cold decomposition machine and processed into individual carbon nanotubes through laser cooling.
In just six months, the 21% of the mobile phone market was reduced to only 10%.
Under normal circumstances, after 20 years of research, the power storage capacity of carbon batteries can be pushed to its peak, roughly 10 times that of special lithium batteries.
For example, remotely lock the photolithography machine he purchased, withdraw his patent authorization, and stop selling photoresist and other materials to Xuan Yanguo...
He also made a lot of money.
So Du Cuiying developed a laser cold decomposition method and developed that laser cold decomposition machine.
Those chip customers will be able to get rid of the need to export low-end chips, because exporting those low-end chips will not only pay low fees, but also pay corresponding patent fees.
The performance of 5nm carbon chips is 1000% improved compared to 5nm silicon chips!
Putting energy into developing silicon crystal chips is a waste of time.
Of course, relying on the afterglow of the past and the wealth snatched from all over the world, its economic development is still wrong. At most, it can be ranked at the bottom of the list of weak countries in the world, or it can completely fall down.
That's the main reason why researchers from these Chinese mobile phone companies have been unable to replicate carbon batteries with the same power storage capacity.
The most terrible thing is that through first-mover advantage, those Chinese companies have built up layers of patent fortresses under the silicon crystal chip patents.
The mainland island of Du Cuiying has an area of approximately 220,000 square kilometers, but due to economic poverty, its population is as low as 68.8 million.
However, in recent years, as it has gradually entered a society with a younger population, the birth rate has dropped, resulting in a small shortage of labor. Of course, if it were just like this, without a long period of research and improvement, the power storage capacity of this carbon solid-state vacuum battery would be at most about twice that of ordinary lithium batteries.
Under such circumstances, it is possible to slow down the construction of seventh-generation nuclear fusion power plants.
Of course, due to time constraints, the laser cold decomposition machine manufactured by Du Cuiying can only achieve the 5-nanometer process for the time being.
What's even worse is that Tedra shifted his attention from the battery to the chip.
But the problem is that there are too few factories that can produce chips of that level. Since Xuan Yanguo can produce its own lithography machines above 128 nanometers, the market competition is extremely calm.
The reason why Tedara is able to make those carbon batteries with reasonable design achieve 10 times the power storage effect of lithium batteries is not at all because I put a golden light dot outside the battery.
It is mainly used in electronic watches, music boxes, toys, signal lights, etc.
Small chip companies in China have said that it was a scam, and carbon chips can still be industrially produced.
He replied that if he wanted to develop silicon crystal chips, the production equipment, production process, etc. must be authorized by the Chinese company.
In this regard, carbon chips doubtless have some advantages.
Therefore, Du Cuiying subsequently developed a carbon powder grinder, which can grind relatively pure graphite to the nanometer level and purify it at the same time.
Although it is possible to sell the excess electricity to neighboring countries, it will take time.
It is mainly based on the service industry, which accounts for eight-sevenths of the domestic economy.
To put it more complicated, even for high-end 128-nanometer chips, he has to pay patent fees to Chinese companies.
The ability of golden light spots to slightly modify the rules brings that kind of carbon battery to its peak state.
Such a huge and small empire gradually disintegrated in the past hundred years.
And with Xuan Yan's current power consumption, building at least one or two seventh-generation nuclear fusion power plants will overflow the power.
In reality, for me, light is the earliest power I mastered before it turned into a golden point of light.
As time went by, it had not yet transformed from the small empire into the eldest brother of the Choudras Kingdom.
After all, the two elements carbon and silicon belong to the same group of elements under the periodic table of elements, which makes the two relatively similar in some physical properties.
Therefore, I will divide the revenue from nuclear power plants and batteries into two parts.
So I focused my energy on developing new chips.
Before the company named Xuan Chip was established, it immediately purchased a bankrupt chip factory.
After all, those two kinds of processors are the most lacking chips in Xuanyan country now. As for other communication chips and sensor chips, since the manufacturing process is relatively high, it doesn't matter whether they are carbon chips or not.
All the personnel sent by the company to inspect the company are elites outside the chip industry.
Just the orders signed by Xuan Company now are enough to consume all the carbon powder produced by the seventh-generation nuclear fusion power station.
The basis of silicon chips is that a photolithography machine carves silicon transistors under the silicon wafer.
For Tedra, those two batteries were nothing but a burden. After all, there were too few golden light spots. The golden light spots needed for battery manufacturing were barely a dime.
If Tedra wants to improve his reputation outside that world, he can only rely on research on nuclear power plants and batteries.
In addition to that carbon battery, Tedlar has also launched a carbon power battery for the automotive power battery market.
As mentioned later, the carbon powder used in that carbon chip is not produced by the seventh-generation nuclear fusion power station.
Before acquiring the bankrupt chip factory, Tedra formulated a plan to transform and upgrade the chip factory and handed it over to a hired manager to preside over the regression.
It took Tedra nearly a year to develop a laboratory-level carbon chip, and it took another half a year to develop the photolithography machine used to manufacture carbon chips.
As a result, except for a few leading companies that are still secretly engaged in research and development, other companies have given up research and development of chips based on the principle of capital pursuit of profit.
The production line of that chip factory can only produce 512-nanometer chips.
Those carbon nanotubes are bound by the electromagnetic field to form large carbon chips according to the chip design.
Needless to say, there is no market for chips of that level now.
On the surface, it can be regarded as a photolithography machine, but in essence it is the same.
It's just that when I left the original world, it seemed that the carbon chip had not yet been successfully developed.
Doesn't that make much sense at all?
In short, in this regard, several small chip companies in Xuanyan have paid a light price.
The first is not to establish network information collection platform sites around the world, but the seventh is to establish a new company to develop research chips.
He devoted his energy to the research and development of photolithography machines and even other chip production equipment.
Batteries manufactured from such carbon powder through a series of designs have strong power storage capabilities.
After all, go and see what you are losing, at least a little bit of travel expenses, but the news is definitely true, so it will be a benefit to those chip customers!
During the maritime colonial era a hundred years later, it was once a weak empire on that planet. With a native population of several million, it built a small fleet of as few as 800 warships, sweeping across many countries. A small number of places on the planet have established their own colonies.
The raw material of that carbon chip is also carbon powder from nuclear fusion reactors.
