<strong>Chapter 508: Forecast of Carbon-Based Chips</strong>
Trantor: Henyee Trantions Editor: Henyee Trantions
Even though investing in materials research was a bottomless pit, it still depended on who one invested in.
After experiencing the sess of the SG-1 wire, General Manager Sun made up his mind and decided to stick with the Jinling Institute for Advanced Study.
And for Lu Zhou, since General Manager Sun was willing to ask him, he was willing to teach General Manager Sun.
This might even help Chinesepanies to establish theirpetitiveness in the global market.
Looking at it from a practical point of view, this was also profitable for him.
Just take the SG-1 material as an example. For every meter of SG-1 wire produced by the Baosheng Group, they would have to pay patent licensing costs to Lu Zhou. Even though this wasn’t as rich of an ie as what the lithium batteries had brought him, it was still a considerable amount.
Lu Zhou thought for a bit and said, “I don’t have much to say regarding the future direction of yourpany. However, since you guys already have an advantage in terms of carbon-based production, why don’t you consider expanding it to your advantage?”
When General Manager Sun heard Lu Zhou, he immediately took this seriously.
“Oh? Professor Lu, do you have any insights that you want to share?”
“Not exactly an insight.” Lu Zhou smiled and paused for a second. He then opened his mouth and said, “I just heard that there’s a research team at the University of California that used a very interesting method to sessfully synthesize a one-nanometer width, 50-nanometer length graphene nanoribbon. So far, this research result has already attracted IBM’s interest, and the industry is optimistic about it being used in the production of the next generation of carbon-based chips.”
Everyone knew that 5 nanometers was the physical limit of silicon-based transistors. Once the transistor size was less than 5 nanometers, the behavior of the silicon electrons became unpredictable due to thews of quantum uncertainty, which might even result in quantum tunneling effects. This could cause the electrons to teleport through the transistor “walls”. Therefore, silicon transistors were bing less and less reliable, and the upgrade ofputer chips was bing more and more of a challenge.
In order to face this challenge, the industry and academicmunity had formed a consensus. They had to find a new material to rece the traditional silicon in order to produce smaller and better performing electronic devices.
And ording to thetest research results, the technical routes that were considered feasible were carbon nanotubes, molybdenum disulfide, ck phosphorus, graphene, and tungsten diselenide.
Because Lu Zhou was in carbon nanomaterials research, he obviously was more optimistic about the graphene route.
And the fact was that Lu Zhou’s intuition was correct. Under the conditions of the Mott instor, the graphene had the potential to be applied as a semiconductor material in electronic devices.
Chips...
When General Manager Sun heard Lu Zhou’s words, he had a headache.
Even though Baosheng Group had a fat bank ount, investing in the big pit ofputer chips still made him nervous.
“Professor Lu... You’re not suggesting us to invest in the big pit ofputer chips, right?”
Lu Zhou saw General Manager Sun’s distressed facial expression and smiled as he said, “You’re not in the electronics industry, so it’s not realistic for you guys to developputer chips. I just think that since we’ve already aplished a few-thousand-nanometer wide graphene wire, why not try to aplish a few nanometers wide graphene nanoribbon? I know these are two very different technologies, but I think we have the ability to do it.”
Lu Zhou was actually being serious.
When he was chatting with Professor Bawendi on the ne, he already had this idea in his mind.
Of course, right now his research was still focused on controble nuclear fusion.
Not to mention, even if he was interested inputer chip technology, the Jinling Institute for Advanced Study didn’t have talents in this area.
I’ll wait until the controble nuclear fusion project finishes before diving intoputer chips.
I’m sure that by then, a lot of the problems will be solved.
General Manager Sun had a helpless expression on his face, and he shook his head.
A few nanometers wide graphene nanoribbon...
Sounds easy.
But how much is it going to cost...
...
The controble nuclear fusion conferencested for five days.
Lu Zhou had gained a lot over the five days.
Other than attending the interesting seminars, the advanced technologies presented by major research institutes also greatly enriched his outlook on the field.
Including Tri Alpha’s FRC machine, he had purchased at least US$40 million worth of equipment.
The FRC machine was only a little faster and slightly more stable than the microwave-heating machine. It wasn’t a key technologicalponent, but it was still useful.
Other than the non-keyponents such as the FRC, Lu Zhou’s list of purchases also included the He3 atom probe, which was considered a keyponent.
Speaking of the He3 atom probe, Professor Lazerson was doing well.
This former PPPL engineer had entered the industry as a technician and was now doing pretty well for himself in the sma physics world.
With hisworking skills from the time he was in academia, he knew better than anyone else exactly what kind of equipment the schrs needed. He helped to make the He3 atom probe technology even more powerful and strong.
At the closing conference dinner, when chatting with this old friend, Lu Zhou learned that his business was getting bigger and bigger. Not only was he working closely with more than 20 sma research institutes, but he was one of the suppliers for the ITER project.
It wasn’t just that. Now that the He3 atom probe technology was improved by him, the observation uracy for high-density sma had significantly improved.
Speaking of which, when the He3pany was first founded, Lu Zhou seemed to have invested a few million USD.
Therefore, he seemed to be one of the shareholders as well.
“I am willing to bet this is definitely one of the most sessful investments you will ever make.” Professor Lazerson began to chat about the past, and he smiled and said, “That few million dors would be worth at least US$100 million. The future of controble nuclear fusion technology is clear. I n on going public on Nasdaq and wait for it to rain money.”
Lu Zhou smiled and said, “Really? I wish you good luck.”
Surprised, Professor Lazerson looked at Lu Zhou as he asked, “Howe you’re not excited at all?”
Lu Zhou made a helpless expression as he said, “... When you have more money than you could ever spend, if someone tells you that you’ve made another hundred million, you won’t react either. That’s how I feel about money, you must feel the same sometimes.”
Even though Lu Zhou’s hundreds of millions in dors was nothingpared to the billionaires on the Forbes Fortune list, the thing was that Lu Zhou’s money was all in cash, which was entirely different.
Not to mention, Lu Zhou didn’t have a lot of expenses. Even though he spent quite a bit to establish the Jinling Institute for Advanced Study, not only did he make back his initial investment, but due to patent licensing fees, he had even made quite a profit.
Professor Lazerson looked straight at Lu Zhou for a while.
After a long time, he shook his head.
“... No, I don’t feel the same at all.”
...
After the conference dinner ended, the group of people returned to their hotel rooms and began to pack their bags.
Their flight back to China was tomorrow morning. In order to not have to rush in the morning, they naturally had to pack their bags the night before.
Lu Zhou found Dian Cili and Fei Jingti in the hotel corridor and reminded them.
“Tomorrow morning at 8 o’clock, you guys will take the ne with Professor Li Changxia. Don’t bete.”
Fei Jingti: “Okay, Professor... Are you not going back with us?”
Lu Zhou shook his head and smiled.
“I still have some matters to take care of, you guys go back first.”