boyutpedia 640. Worth At Least Ten Nobel Prizes!
640. Worth At Least Ten Nobel Prizes!
Of course, Zhao Kangning did not come to Zhonghai Vocational and Technical College for any future.
In other words, the future he pursues is different from the future in the minds of ordinary people.
In the eyes of the vast majority of people in the Dragon Kingdom, officials still have a better future than scientists.
Although they say they should respect scientists, officials are scolded every day.
But what he says sounds nice, but his body is honest.
If you let ordinary people choose to be academicians of the Dragon Academy of Sciences, they will still be the governor of a province. Most people will choose the latter.
Unexpectedly, many scientific researchers have quietly transferred to management and administrative positions.
There are very few people like Zhao Kangning who would rather give up their official career and engage in scientific research again.
Just as I was speaking,
Han Yue opened the system interface.
On the transparent light screen in front of you,
【Name: Han Yue】
[Available technology points]: 61 points.
Han Yue's eyes quickly skipped over the school's popularity, school recognition, and school strength data, and settled on the available technology points.
For Han Yue now, the above are just a series of numbers and have little meaning.
Only the technological points are the real deal.
Han Yue remembered that the last time he opened the system panel, the technology point was 52 points, and it had increased by 6 points in such a short period of time?
It seems that the publicity effect of the new campus is good, and it is recommended to continue to increase efforts!
Han Yue quickly found the room-temperature superconducting technology category.
Room temperature superconducting technology is ultimately a material technology.
And there is definitely more than one material technology.
Therefore, there is more than one material that can achieve room temperature superconductivity.
Han Yue looked at the room temperature superconducting materials listed in the system interface, which spanned several pages.
Damn? So many?
Just like semiconductor materials, although the most well-known is silicon, there are actually many kinds of semiconductor materials, such as silicon (si), germanium (ge), compound semiconductors, such as gallium arsenide (gaas), etc., doped or made Into other compound semiconductor materials, such as boron (b), phosphorus (p), indium (in) and antimony (sb), etc.
Each one has different uses.
Han Yue carefully selected three different room temperature superconducting materials. One is a new ceramic material of La-Ba-Cu-O. One is an alloy of yttrium barium copper oxide (Ba-Y-Cu-O), and the other is a hydrogen-rich material made of lanthanum hydride plus other trace elements.
These three superconducting materials are highly scalable and suitable for a dazzling variety of electronic devices. One is cheap and suitable for large-scale applications such as long-distance power transmission.
There is another one that is expensive to build, but has the best overall performance. Han Yue plans to use it in a controllable nuclear fusion device to continue to enhance the power generation capacity of the stellarator.
Each room temperature superconducting material requires 10 technological points.
Han Yue waved her hand and wanted them all!
All three room temperature superconducting materials have been replaced!
These three room temperature superconducting materials can cover almost all application directions of room temperature superconducting materials.
And they are all very mature materials that can be applied directly as soon as they are taken out!
Even if Ranga Dias, the third-generation scientist in Yingjiang, did not commit any fraud, his new material made of hydrogen, nitrogen and lutetium would have basically no practical value. At most, it could provide some ideas and help to other scientists.
...Please give me flowers...
This has been touted as a scientific research achievement that spans the ages. Talk about surpassing Han Yue.
So what are the three room temperature superconducting materials that Han Yue redeemed from the system? Scientific research achievements spanning several eras?
Take the most well-known semiconductor material as an example. The first discovery of semiconductors was in 1833. Faraday discovered that silver sulfide has semiconductor properties.
After 1960, silicon crystal material chips and integrated circuits were widely used.
It’s been 130 years!
In other words, it took more than a hundred years and four generations of semiconductor materials to iterate from the discovery of semiconductor materials to their final large-scale application and manufacturing of chips!
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As for room temperature superconductors that are more complex, more sensitive, and more unstable, how many years will it take from discovery to large-scale application?
Even if it doesn’t take one hundred and thirty years, there will always be twenty or thirty years, right?
To take a step back, even if RangaDias did not fake it, his room temperature superconducting material is real.
Each of the three materials Han Yue came up with was at least thirty years ahead of him!
If a room-temperature superconducting material is discovered that is unstable and cannot be applied on a large scale, it will be worth a Nobel Prize.
How many Nobel Prizes are Han Yue's three materials worth?
Three? Five?
Worth at least ten Nobel Prizes!
In the eyes of others, Han Yue was just stunned for a moment.
I would never have imagined that in a short period of time, he would come up with three room-temperature superconducting materials that cover all application directions and are worth at least ten Nobel Prizes!
"Where did we talk just now?" Han Yue asked with a smile. .