Scholar’s Advanced Technological System

Jinling High-tech Park.

Thirty-five years ago, the neighborhood was still a wasteland to be exploited, but it is now developing in a similar way.

With the policy support of the municipal government, with the arrival of a large number of high-tech enterprises and the support of the talent resources of nearby university cities, this area has formed a good enterprise development ecology based on the industrial and academic research model.

Although the industrial park was originally designed to retain local talent, it now appears that this goal has not only been exceeded, but has also brought tremendous economic value.

Especially in the lithium-electric industry.

According to the latest industrial research, the production of modified PDMS film lithium anode material and HCS-2 material lithium-sulfur battery cathode material in this area, which account for 32.7 per cent and 47 per cent of the national market share respectively, has almost become the economic pillar of this industrial park.

There are also SG-1 superconducting magnets recently commissioned by Baosheng Group and sold worldwide.

The city council leaders who had planned the area were afraid of not knowing how many nights it had been. When they dreamed, they were awakened by this beautiful track record.

Of course, the reason for this level of development here has little to do with policy support.

One reason for this is that enterprises led by Zhongshan New Materials seized the opportunity of the era and caught up with the surge in the lithium electricity market, while naturally individual efforts are also indispensable.

Of course, the most central factor is probably the technology of the Jinling Institute of Higher Studies.

Enterprises throughout the high-tech park, like the stars and moons, “surround” this research institution. More than 60% of the value of production here is technically directly or indirectly related to this research institution, and this proportion is increasing further as the relevant market expands.

The industry is led by academia and the factory follows the lab.

In other research institutions in the country, this is almost unimaginable.

Even in developed countries, where scientific conversion rates exceed 40 per cent, research institutions with such skills are among the rarest.

Especially since the return of a Nobel laureate, it has become a sacred place for countless researchers.

Regardless of how researchers look at their work within this research institution, it seems to most outsiders, at least, that being able to do research with the Nobel laureates is a pretty impressive thing in itself.

After all, it's Novo's lab, Novo's lab. Can it be a regular project?

Not to mention the Nobel Prize level, at least the Quasi-Nobel Prize level, right?

Indeed, it is.

With that light beneath the Purple Gold Mountains, the hope of controllable nuclear fusion has attracted much attention not only from the STAR device, which simulates star energy, but also from the Jinling Institute of Higher Studies, a cooperative unit.

If, at first, the institute was able to attract only some researchers who did not yet have their own laboratories, there is now considerable interest in it, even among a few well-known scholars.

After all, it is backed by more than 40 billion large projects and is a major national scientific research project, a context far from comparable to that of general research institutions in the country.

Of course, although it all sounds so tempting, it really walks into this door, and the beauty in it is not as exaggerated as others might imagine, at least it's not a "source of peaches.”

No bureaucracy, no number of papers as the only assessment indicator… these are some of the characteristics of this research institution, and researchers who do research here simply need to focus on their own research.

In contrast, however, the research pressures and intensity of work here are much greater than in the case of the general institutes. After all, if you don't have to run, with their abilities, trying to keep up with the footsteps of the ark is still quite strenuous.

If you want Hou to make an assessment.

This place is full of opportunities.

But competition, too, is particularly intense.

Every day at 12 o'clock, it's a family meal, and when you're busy, you even have to lay the floor in the lab, which is harder than all the other research in the direction of materials.

As for the Institute of Mathematics and Physics…

He hasn't been there, and he doesn't rate it very well.

Of course, although I am busy, I am satisfied with my life here.

In terms of both the scientific environment and salary entitlements, this is a top-notch level in the country.

Of course, it's a peer-to-peer comparison, and it's meaningless to have to compete with those who do IT.

Now that you have courageously jumped into the biochemical ring pit, you must prepare to be buried.

Besides, we have to talk about feelings when we do research.

Even if learning is inseparable from money, talking about money is pointless.

Whenever I can't hold on, I feel so comforted.

When you can publish two top-of-the-line magazines and mix them up as little bosses, the situation is completely different.

However, ideals are good, but reality is boney.

More than half a year later, the subject he had applied for had not progressed at all.

While there have been some interesting findings, these are far from protruding.

So far, he's figured out a set of laboratory synthesis methods.

If he was at another institute in the country, he would now have to wonder how to pass the year-end test.

Fortunately, however, Professor Lu did not make the number of papers a mandatory indicator, and his experiments could continue as long as the monthly report stated what he had done this month.

At least, he didn't have to worry about the experiment being halved and the subject being cut off.

“… this is the data you want, Figure a is the XRD diagram and Figures b, c and d are TEM tests on the material, respectively. There is also a joint characterization of the SEM diagram and the XRD diagram, and I did it with you. ”

Picking up these pictures, Hou Jin looked closely at them.

Yu Junda sighed as she stood beside the experimental table with her arms in her arms.

“I told you, it's not just carbon scum, there's nothing to study. ”

Wasted half a year, and he wasn't in a good mood.

To be honest, he started this subject with this guy when his brain got hot, and now he's got some regrets.

“It's too exaggerated to say it's carbon scum...”

“Or would you like to come up with a better story?” Yu Junda shrugged, "Whatever you call it, I feel like we're all wasting our time. ”

When I heard the words of my friend, Hou Jian went into silence.

Not that he didn't want to argue, and he didn't know what to say.

This experiment remains unproductive.

Whether the material is dispersed in other photographs or taken out for individual use, it is difficult for him to think of the value of the item.

Sighed and let go of the data in his hand. Just as Hou Jian was worried about how to write the next experimental report, his gaze suddenly fell on the bowl of the experimental table.

This thing is used to grind carbon nanotubes.

Although they usually use a ball grinder, they occasionally use it when handling small amounts of samples.

What attracted his attention was not the bowl itself, but...

An unexpected thought emerged, and Hou Zheng said thoughtfully.

“By the way, we haven't tried ceramics yet...”

Yu Junda stunned slightly.

“Seems like… no. ”

Something seemed to have occurred to him, and his expression became a little strange.

“Do you want to…”

Hou moved forward and nodded.

“Try it, we've wasted half a year anyway. ”

His expression was also a little bitter when he said it.

Even if it doesn't work... it doesn't matter this time.