Scholar’s Advanced Technological System

Chapter 306 Experimental Initiation

After the seminar, the Ark also left the venue with the tide of the people.

Yet just as he was about to walk in the direction of the experimental building, suddenly someone called himself from behind.

“Professor Lu, long time no see. ”

Looking back, I saw Professor Lee Rong-eun walking towards me with a smile on his face.

I thought that I had just dug two general from the old man a while ago, and the ark was a little embarrassed for a while. I couldn't help but smile and say hello.

“Long time no see, how are you feeling? ”

“Anything else is fine, this heart is not good,” looking at the ark, Professor Li smiled, but the tone was still a bit resentful, “I finally brought out two apprentices, this is good, they all fled for you. ”

“How can this be called a runaway?” The ark dried up and said, "And if you don't go new, you'll find something better...”

Professor Li shook his head: “Okay, I'm not here to ask your Xingshi for sin, they can have a good place, I'm reassured. It's a shame you didn't read Bo, but here you have no less to learn than I have. ”

It would be a little exaggerated to ask for guilt just for digging up two student entertainers. No one can say that they bring out students, and when they graduate, they have to work here, even if he does have the idea of absorbing them into Zhongshan New Materials for research.

There is clearly a better future for following a landing boat, and any young person who intends to develop in this line of work would make a similar choice if the pay treatment is not bad. Li Rong-en, though reluctant, also supported the choice between the two students.

His research team, not so much affected by the lack of two masters.

Paused for a moment, Mr. Old looked at the ark and asked seriously, "Honestly, I don't really understand the process you proved at the seminar. Are you serious about that hollow carbon ball conclusion? ”

The ark nodded: "I don't have to talk nonsense about such things. ”

In carbon sulfur composites, hollow carbon balls are a relatively novel idea with a lot of room for development.

And thanks to breakthroughs in carbon nanotechnology, prices for materials similar to carbon nanotubes, fullerenes and graphene are falling every year, and their application in industrial production is not without a realistic foundation.

After staring at the Ark for a while, Professor Li suddenly shook his head with a smile: “... Sun Hong, the old man's eyes are still poisonous. Looks like he's right. Your boy does have bamboo in his chest. ”

The ark laughed embarrassingly and humbly said: “My chest is exaggerated, I am only 30% sure. ”

Of course, this 30% certainty is just a certainty of success, not a success rate, and experimenting with this thing just knows how many times to do it.

After all, his assumptions about hollow carbon balls are all based on common-sense inferences. Although mathematical methods can prove this feasibility, it is hard to say whether this material can be found.

“Thirty percent are already pretty sure, and usually our experiments are less than 10 percent likely to go gambling.” After a sentiment, Professor Li looked at the Ark and continued, “Then I look forward to your good news. ”

The Ark asked: "Is your research team not involved? ”

Professor Li shook his head and said with a smile: "You're already inside. What else am I involved in? Waiting to see your paper. ”

After all, Zhongshan New Materials is not an industry giant and has limited funds. It is difficult to see the results of research and development in the direction of lithium-sulfur batteries in the short term. As one of the shareholders of the enterprise, Li Rong-en will naturally not rush to invest money in it.

Moreover, domestic lithium-electronic anode materials still have a large market gap. Compared with the research and development of new materials, it is much better to digest the current market first.

As for the big project of lithium-sulfur batteries, it's better to leave it to the industry giants.

……

The meeting's wrap-up papers won't be down for about ten and a half days, but those things have nothing to do with the ark.

National projects were important and enjoyed policy advantages, but the task of the system was also important, and neither side of the research vessel intended to fall behind.

Moreover, it is also the direction of making hollow carbon balls, which, although laboratories on both sides have different experimental tasks, can complement each other in some studies.

The following morning, after completing a portion of the interview via remote video, the Ark made a video call with Professor Sarot, far from Silicon Valley.

Instruments will probably not be available for some time at the research institute on the Golden Ring side, but the laboratory on the Silicon Valley side will be ready to start experimenting with the funding of star science and technology.

$100,000 a year is not cheap, and the Ark has no intention of raising a bunch of idle people.

He edited an e-mail and sent it to Sarott's e-mail shortly after he had made a specific research plan.

“… I have sent a specific research plan to your work email address. Please take a look and let me know if you have any questions. ”

Based on the ark's topological analysis of that carbon nanosphere, its prototype could probably be dismantled into a C70 fullerene molecule and a carbon nanotube with two topological defects.

Described in chemical language is to open the partial π bond of the C70 fullerene material and modify it with a carbon nanotube with a topological defect, changing its molecular spatial configuration under certain conditions.

It sounds complicated, but it's not really hard to do that.

First, the arc chamber is drawn into a vacuum, into helium, two high-purity graphite rods are close, and the arc effect is generated by high-voltage electricity. The plasma produced by carbon rod gasification collides continuously in an inert gas environment to form stable C60, C70 and other fullerene macromolecules.

The C70 molecules are screened out and mixed with carbon nanotubes produced through the CVD vacuum tube furnace for thermal reaction in a vacuum environment.

Due to the instability of π bonds and large π bonds themselves, a fairly complex chemical reaction occurs during heating. Similar products were constantly screened from the reaction chamber according to the expected polymeric model, and the physical and chemical properties of the products were analyzed.

Perhaps a few milligrams of treasure can be found in a kilogram of product. Then we plotted different curves based on factors such as product, time, material, etc., and figured out something similar to the empirical formula, thus building a complete set of theories.

This may seem like a stupid approach, but from a realistic point of view, it is the most appropriate option at the moment.

After all, before looking for a stable way to prepare, the first thing that needs to be solved is from scratch to scratch. In fact, many of the experiments in material science have been done through this “silly method”.

But even knowing that this was the only option, after looking at the research plan developed by the Ark, Sarott couldn't help but say, "Honestly, we can outsource these experiments to others. ”

Ark: “I don't feel comfortable with other people's data, let alone outsourced everything. What use do I have for you? ”

Across from the video, Sarott smiled and stopped beeping.

“Yes, my boss… I will follow your instructions immediately. ”

Looking at Professor Salott, who was so obedient, the ark nodded with satisfaction, encouraging him: "Go ahead and do your best, have a little confidence in your research, maybe it's just a" Nature ". ”

Though not beeping on his mouth, Sarott couldn't help but beep in his heart.

That's it for Nature?

Does not exist.

Whether he looks sideways or up, he can't see anything appealing about this thing.