novelden Chapter 73 Approval and Implementation of the Plasticizing Microbiome Project
Chapter 73 Approval and Implementation of the Plasticizing Microbiome Project
Chapter 74 Approval and Implementation of the Plasticizing Microbiome Project
If DeepBlue Technology enters the photovoltaic industry with its "single-linear fission" technology, it could quickly achieve an absolute monopoly in the industry.
It's no exaggeration to say that any company that competes with DeepBlue Technology will go bankrupt.
It's worth noting that the technology used by our competitors has a photoelectric conversion efficiency of only slightly over 20%.
In contrast, single-state fission solar energy technology can achieve a photoelectric conversion efficiency of over 75%, a difference that is ridiculously large.
Compared to the current state of technology in the photovoltaic field, it is at least 20 to 30 years ahead.
Lin Chuan had looked at the technology tree of singlet fission solar energy through the Hyperdimensional Technology Library. It was only the first generation, and there were several more generations of technology that were currently locked.
In its final form, this technology system can increase the solar photovoltaic conversion efficiency by more than 98%.
Undoubtedly, once DeepBlue Technology releases this technology and promotes its commercialization, its competitors in the industry, such as LONGi, Suntech, and LDK Solar, will be in serious trouble.
If these companies saw the terrifying 75% photoelectric conversion efficiency, they would be filled with despair at first glance.
It's better to close down early and cut losses; there's absolutely no chance of winning.
However, Lin Chuan had no intention of destroying his competitors. He let DeepBlue Technology be the upstream supplier, while he would make the key components involving the most core technologies himself.
For non-core modules, DeepBlue Technology can certainly apply for patent registration.
Then they license the patents, collect patent fees, and let their competitors do the work, essentially turning their rivals into their contract manufacturers.
This technology is considered energy infrastructure. To quickly achieve economies of scale, it is best for multiple companies in the same industry to work together to promote it, which is in line with the national strategy.
By collecting patent fees and setting industry standards, and by controlling industry pricing power, the entire industry has to call DeepBlue "Daddy" and rely on DeepBlue for its livelihood.
This path is undoubtedly the most reasonable and the best ecological niche.
It's just a matter of giving up a portion of the profits. You can never earn all the money in the world. Besides, Lin Chuan owns the Hyperdimensional Technology Library, which contains a ton of cutting-edge technologies covering many fields. Why would he be afraid of not making a profit?
Apart from a few core technologies that are not patentable, there are a total of 237 technical points that can be patented.
It covers materials, structure, process, and equipment, and can build an insurmountable patent barrier.
It is worth mentioning that Lin Chuan's approach is similar to Japan's strategy of building patent barriers for hydrogen fuel cell technology to some extent.
As a reborn individual, he knew the consequences of Japan playing this game.
In the end, everyone stopped using it and went to work on lithium battery technology.
Because of its extremely unethical practices, Japan has accumulated approximately 70% of the world's key patents for hydrogen fuel cells.
These patents are concentrated in the application sector, which has the highest costs and lowest profits.
Such as fuel cell stacks, stack control systems, etc.
However, for infrastructure projects involving hydrogen production, storage, and transportation, which are characterized by high difficulty, high risk, and low returns, the challenges are significant.
I hardly put any effort into the project, thinking I'd let someone else do it.
This clearly shows that he has cleverness but lacks wisdom.
This approach of "building toll booths but not roads" has drawn international resentment, as other countries have to bear the high costs of research and development and infrastructure construction.
Ultimately, they had to pay high patent fees to Japan, creating a situation where "I bear the risk, and you take the profits."
The result is that you can play by yourself, and we'll set up another table.
Then the notebook was dumbfounded.
Just as domestic manufacturers suffered heavy losses due to patent barriers in the DVD era, they learned from this experience.
Japan tried to use the same old tricks again with hydrogen energy, but nobody wanted to play along.
The same applies to Europe and America; they tacitly avoid this together and set up a separate track to develop lithium battery electric vehicles.
If Japan has the capability to independently build a complete upstream, midstream, and downstream industrial chain, then this approach is acceptable. Others may be unhappy, but since Japan is so powerful, they can't do anything about it and have to accept it.
The most fatal flaw is that Japan cannot operate on its own, and its own market size is insufficient to support it.
Therefore, one only possesses cleverness, not true wisdom.
But Lin Chuan could easily master the same similar strategy.
Firstly, his approach to profiting from patents isn't as blatant as some might think. He won't overcharge for patent fees, nor will he charge duplicate fees like some other companies. Lin Chuan will ensure his clients make a considerable profit.
Secondly, it possesses a complete industrial technology system. If no one wants to work with DeepBlue Technology, Lin Chuan is capable of supporting the entire industry on his own; the only difference is that it will take more time and effort.
Third, the size of the domestic market is undeniable; it can be sustained by relying solely on this one market.
When these three elements are present, it cannot be said that one's eating manners are unseemly.
To put it another way, there are some money I could easily make, but I choose not to, giving up some profits for others to earn. We can all make money together; as the saying goes, it's better to share happiness than to enjoy it alone.
This is a high-EQ statement.
To put it in a low-EQ way, this is like saying, "I'm really giving you a chance to make a living."
Lin Chuan exited the hyperdimensional space. About ten minutes later, Shen Yuxin knocked on the door of Lin Chuan's office and then pushed the door open to enter.
"Senior, the approvals for the plasminoid bacteria project have been received."
Seeing Lin Chuan sitting at his desk, she quickly walked over and placed the documents she had brought on the desk.
Lin Chuan picked up the document, which had several red stamps on the cover, belonging to the Ministry of Ecology and Environment, the Ministry of Science and Technology, the Ministry of Agriculture and Rural Affairs, and other departments.
Shen Yuxin said, "The biosafety assessment has been passed, the environmental release permit has been approved, and the industrial microbial use permit has also been issued."
In short, plasminoides can be formally put into commercial application.
Lin Chuan opened the document and began to read it.
The document includes approval opinions, a technical review report, expert signatures, and the word "Agreed" on the last page, stamped with the official seal of the relevant department.
I looked at it for a while, then closed the file.
"Notify Zhao Funing, Cui Zhaohan, and Cheng Siyuan—" Lin Chuan instructed, "Tell them to have a meeting in the conference room in twenty minutes."
Shen Yuxin nodded: "Okay."
Twenty minutes later.
Everyone quickly arrived in the conference room.
Lin Chuan looked at the attendees, picked up the document in his hand, and placed it back on the conference table.
"The approval process for the plastic-eating bacteria project has been completed. From now on, we can proceed with industrialization and commercialization."
Upon hearing this, everyone was taken aback.
Cui Zhaohan exclaimed in surprise, "So fast? I thought it would take at least a year before it landed."
Those present, including Lin Chuan, were unaware that the technology of plasticizing bacteria had actually been on the national radar for some time.
It was the government that gave it a push behind the scenes, allowing relevant departments to prioritize review and evaluation, and to approve all products that were approved if there were no problems, thus enabling the product to be commercialized quickly.
The government's move aims to expedite the implementation of this project and promote the policy of banning the import of foreign waste, starting with a ban on plastic waste and gradually progressing to a complete ban.
After Lin Chuan was reborn, the butterfly effect occurred.
In the previous life, the country only began banning the import of foreign waste in 2017.
In this situation, the ban on the import of foreign waste will be brought forward due to DeepBlue Technology's plasticizing microbial community technology.
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