Start with a college teacher
Chapter 257 Football ene
Chapter 257 Football ene
Fishing every day is not an option.
I wasting time, not accompanied by beautiful women, and a little boring.
There are many beauties with blue eyes and blond hair on campus, but Shen Guanglin has no sense.
The characteristic of German beauties is that they are tall and burly. Shen Guanglin doesn't like this characteristic of them. They are simply too tall, and they can't even stand up and output.
Let's go back to science.
Shen Guanglin felt that the conditions were a little mature, and he wanted to start a new topic for himself: that is to study soccerene.
It's time to discover football ene, and others will be the first to catch it later.
Fullerene, also called fullerene, is a stable molecule composed of 60 carbon atoms.
Moreover, footballene has many unique properties: its hardness is harder than diamond; its hardness is 100 times stronger than steel; its conductivity is stronger than copper, but its weight is only one-sixth of copper; Embedded in the structure of footballene, it can form unique properties, such as superconducting properties, paramagnetic properties, and so on.
Due to its perfect symmetric structure, its special stability in the nanoscale range, and its very strange electronic structure, footballene has become an irreplaceable material with great application potential in many high-tech fields.
In later generations, this thing was called "Nano Prince" by the industry.
It plays a pivotal role in biomedicine, new energy, new materials, catalysts, electronics and other fields.
For example, in the field of biology and cosmetics, fullerene can be compatible with free radicals, so it has anti-oxidation and anti-aging effects, and it also has a good inhibitory effect on HIV.
In later generations, skin care products with the brand name of fullerenes have become rotten, but almost all of them are gimmicks, because fullerenes are much more expensive than gold.
In 2020, the market purchase price of one gram of pure fullerene is 1700 yuan, while the price of one gram of gold is only more than 400 yuan, which is more than four times the difference.
If you are not a rich person, this thing is really unaffordable.
However, if someone from him, Shen, discovered this thing first, he would definitely be able to tell a better story.
In real history, its story is this: in 1985, the British chemist Croto successfully outlined the molecular structure of C60, and he also told a story: he said that he was inspired by the architect Fuller The architectural design scheme of the world gave him inspiration, carbon 60 is like the spherical building, so he also suggested that this ene is a fullerene.
So coquettish!
What did that architect, Buckminister Fuller, do? He just built a spherical building, which is slightly similar in shape to C60.
As a result, the building did not leave its own name, but Fuller left a legendary story of himself as a golden supporting role in the technology world.
Shen Guanglin felt that he must conceive the story better and tell the story better.
The name can be called Football En or Cuju En, because Cuju was first invented in China.
The discovery process of football ene can be arranged to watch the 1982 World Cup when I was inspired by the football match.
Shen Guanglin sponsored the Huaxia football team.
He "loved" this.
When the World Cup opens, he can say: Although the national team did not achieve good results, he believes that this is just the beginning, because it has brought him inspiration and blessings.
The discovery of the benzene ring can be said to be a dream about a snake biting its own tail. Shen Guanglin can also say that because football carries too much love for him, he imagined the carbon molecular structure into the shape of a football.
Then theoretically calculated, perfect!
In fact, today in 1982, football ene has been "seen" by people, but the people who saw it didn't know what it was.
After all, footballene has a three-dimensional structure, and there is really no clue from the plane, and the conclusion can only be drawn by inversion.
As early as 1980, Fuso scientist Iijima Sumio discovered a concentric circle structure when analyzing the transmission electron microscope image of carbon film. This image looks like a cut onion, but he didn’t care. In fact, This is the first electron micrograph of the C60.
Sumio Iijima is also very tragic. He has made countless achievements in scientific research in his life, and he has accompanied the Nobel Prize all year round, and has never won a prize.
Many people think that both the 1996 Nobel Prize in Chemistry and the 2010 Nobel Prize in Physics should have been awarded to him, but he was not awarded, which is a pity.
Shen Guanglin still doesn't know this Sumio Iijima who is very friendly to China, but he has decided to "discover" Soccerene.
It was good that Manstein had a transmission electron microscope in his lab.
Shen Guanglin liked it very much.
Ever since he saw this transmission electron microscope, Shen Guanglin had thought a lot.
Because, too many things can be discovered through it, and there are several kinds of carbon atoms alone: footballene, carbon nanotubes, and graphene.
All of these are Nobel-level achievements.
However, at this stage, this transmission electron microscope is very popular, and many people in the laboratory use it for experiments.
Shen Guanglin often uses it for extracurricular activities, and everyone doesn't talk about it, but they still have opinions in their hearts.
Look at what Shen Guanglin has done. He observed diamonds, graphite, and carbon black for a while, and even took soot from the fireplace to observe.
This has nothing to do with the focus of current research on halophilic bacteria and ATP.
But who made him the head of the laboratory? Manstein didn't care about him, so who cares about him.
Until Wu Xiaoyun, who came from China, couldn’t stand it any longer. She suggested euphemistically: “Mr. Shen, are you using a transmission electron microscope as a toy? , but it’s hard to say, let me paraphrase.”
"Oh, you use it, you use it, I'll just buy another one."
Being rich is a little willful.
Shen Guanglin bought a new transmission electron microscope with his own money, and planned to use it in Manstein's laboratory first, and bring it back when he returned to China.
With his own instrument, Shen Guanglin played more capriciously.
He was not satisfied with observing the commonly used materials in the laboratory, and started to play wild, even the tadpoles.
One day, he said, if the nucleus of a fertilized egg is taken out, and then replaced with the nucleus of a somatic cell, can it still develop into a living thing.
Isn't this the research result of the late scientist Tong Di Zhou? Mr. Shen also wants to study goldfish.
Not really, but creatures are pretty interesting.
Because he observed too many things, everyone didn't know what he was going to do, until one time, Shen Guanglin himself said that he had slipped his mouth.
Who made German beer so delicious.
To them, beer is not a drink, it's a food.
At a routine dinner, Shen Guanglin drank too much and bragged there: "Don't underestimate the carbon atom, there are many good things in it. The carbon fiber used by Laomei is just an application state of it. There are other macromolecules made of carbon atoms."
At a gathering of scientists, bragging is also inseparable from professionalism. However, a chemist in the laboratory said: "Shen, you are right, there are simply too many substances containing carbon, methane, ethane, including various All organic matter contains carbon, which is the basis of life."
"No, that's not what I mean. What I mean is that there are several kinds of molecules that can be made of only carbon atoms. Diamond is just one aspect. There are other unknown carbon combinations in nature. "
"Give me an example."
"Of course, I'm currently working on a carbon molecule like a benzene ring, which will shock the world."
"real or fake?"
"Of course it's true, let's see."
The speaker has no intention, but the listener has a heart.
Shen Guanglin's words were heard by Zhang Shousheng's teacher Lucas. He was very thoughtful. He returned to his laboratory and started various experiments, hoping to find something different.
Shen Guanglin didn't know what the old silver coin was doing until one day Zhang Shousheng said that Lucas was also studying carbon molecules, collecting carbon black and graphite every day.
Moreover, Lucas also observed the graphite slices, just to see what the carbon atoms in the graphite constitute.
I'm going, this bastard thing!
Shen Guanglin didn't even dare to analyze graphite flakes, for fear of discovering something that shouldn't be discovered, because it was not in his current interests.
Shen Guanglin plans to eat a wave of fullerene dividends first, and then eat graphene dividends after the end. This idea is perfect.
Question Now that Lucas is going to make graphite slices, does he want to find graphene?
Fortunately, graphene is a single layer of atoms, and slices cannot be cut out. The discovery process still needs some chance.
Shen Guanglin decided to be more cautious and not to reveal more information to this old silver coin. What if he is not satisfied with slicing and sticks it with tape instead?
Hurry up and get the soccer ball out, and cut off his thoughts.
(End of this chapter)
Fishing every day is not an option.
I wasting time, not accompanied by beautiful women, and a little boring.
There are many beauties with blue eyes and blond hair on campus, but Shen Guanglin has no sense.
The characteristic of German beauties is that they are tall and burly. Shen Guanglin doesn't like this characteristic of them. They are simply too tall, and they can't even stand up and output.
Let's go back to science.
Shen Guanglin felt that the conditions were a little mature, and he wanted to start a new topic for himself: that is to study soccerene.
It's time to discover football ene, and others will be the first to catch it later.
Fullerene, also called fullerene, is a stable molecule composed of 60 carbon atoms.
Moreover, footballene has many unique properties: its hardness is harder than diamond; its hardness is 100 times stronger than steel; its conductivity is stronger than copper, but its weight is only one-sixth of copper; Embedded in the structure of footballene, it can form unique properties, such as superconducting properties, paramagnetic properties, and so on.
Due to its perfect symmetric structure, its special stability in the nanoscale range, and its very strange electronic structure, footballene has become an irreplaceable material with great application potential in many high-tech fields.
In later generations, this thing was called "Nano Prince" by the industry.
It plays a pivotal role in biomedicine, new energy, new materials, catalysts, electronics and other fields.
For example, in the field of biology and cosmetics, fullerene can be compatible with free radicals, so it has anti-oxidation and anti-aging effects, and it also has a good inhibitory effect on HIV.
In later generations, skin care products with the brand name of fullerenes have become rotten, but almost all of them are gimmicks, because fullerenes are much more expensive than gold.
In 2020, the market purchase price of one gram of pure fullerene is 1700 yuan, while the price of one gram of gold is only more than 400 yuan, which is more than four times the difference.
If you are not a rich person, this thing is really unaffordable.
However, if someone from him, Shen, discovered this thing first, he would definitely be able to tell a better story.
In real history, its story is this: in 1985, the British chemist Croto successfully outlined the molecular structure of C60, and he also told a story: he said that he was inspired by the architect Fuller The architectural design scheme of the world gave him inspiration, carbon 60 is like the spherical building, so he also suggested that this ene is a fullerene.
So coquettish!
What did that architect, Buckminister Fuller, do? He just built a spherical building, which is slightly similar in shape to C60.
As a result, the building did not leave its own name, but Fuller left a legendary story of himself as a golden supporting role in the technology world.
Shen Guanglin felt that he must conceive the story better and tell the story better.
The name can be called Football En or Cuju En, because Cuju was first invented in China.
The discovery process of football ene can be arranged to watch the 1982 World Cup when I was inspired by the football match.
Shen Guanglin sponsored the Huaxia football team.
He "loved" this.
When the World Cup opens, he can say: Although the national team did not achieve good results, he believes that this is just the beginning, because it has brought him inspiration and blessings.
The discovery of the benzene ring can be said to be a dream about a snake biting its own tail. Shen Guanglin can also say that because football carries too much love for him, he imagined the carbon molecular structure into the shape of a football.
Then theoretically calculated, perfect!
In fact, today in 1982, football ene has been "seen" by people, but the people who saw it didn't know what it was.
After all, footballene has a three-dimensional structure, and there is really no clue from the plane, and the conclusion can only be drawn by inversion.
As early as 1980, Fuso scientist Iijima Sumio discovered a concentric circle structure when analyzing the transmission electron microscope image of carbon film. This image looks like a cut onion, but he didn’t care. In fact, This is the first electron micrograph of the C60.
Sumio Iijima is also very tragic. He has made countless achievements in scientific research in his life, and he has accompanied the Nobel Prize all year round, and has never won a prize.
Many people think that both the 1996 Nobel Prize in Chemistry and the 2010 Nobel Prize in Physics should have been awarded to him, but he was not awarded, which is a pity.
Shen Guanglin still doesn't know this Sumio Iijima who is very friendly to China, but he has decided to "discover" Soccerene.
It was good that Manstein had a transmission electron microscope in his lab.
Shen Guanglin liked it very much.
Ever since he saw this transmission electron microscope, Shen Guanglin had thought a lot.
Because, too many things can be discovered through it, and there are several kinds of carbon atoms alone: footballene, carbon nanotubes, and graphene.
All of these are Nobel-level achievements.
However, at this stage, this transmission electron microscope is very popular, and many people in the laboratory use it for experiments.
Shen Guanglin often uses it for extracurricular activities, and everyone doesn't talk about it, but they still have opinions in their hearts.
Look at what Shen Guanglin has done. He observed diamonds, graphite, and carbon black for a while, and even took soot from the fireplace to observe.
This has nothing to do with the focus of current research on halophilic bacteria and ATP.
But who made him the head of the laboratory? Manstein didn't care about him, so who cares about him.
Until Wu Xiaoyun, who came from China, couldn’t stand it any longer. She suggested euphemistically: “Mr. Shen, are you using a transmission electron microscope as a toy? , but it’s hard to say, let me paraphrase.”
"Oh, you use it, you use it, I'll just buy another one."
Being rich is a little willful.
Shen Guanglin bought a new transmission electron microscope with his own money, and planned to use it in Manstein's laboratory first, and bring it back when he returned to China.
With his own instrument, Shen Guanglin played more capriciously.
He was not satisfied with observing the commonly used materials in the laboratory, and started to play wild, even the tadpoles.
One day, he said, if the nucleus of a fertilized egg is taken out, and then replaced with the nucleus of a somatic cell, can it still develop into a living thing.
Isn't this the research result of the late scientist Tong Di Zhou? Mr. Shen also wants to study goldfish.
Not really, but creatures are pretty interesting.
Because he observed too many things, everyone didn't know what he was going to do, until one time, Shen Guanglin himself said that he had slipped his mouth.
Who made German beer so delicious.
To them, beer is not a drink, it's a food.
At a routine dinner, Shen Guanglin drank too much and bragged there: "Don't underestimate the carbon atom, there are many good things in it. The carbon fiber used by Laomei is just an application state of it. There are other macromolecules made of carbon atoms."
At a gathering of scientists, bragging is also inseparable from professionalism. However, a chemist in the laboratory said: "Shen, you are right, there are simply too many substances containing carbon, methane, ethane, including various All organic matter contains carbon, which is the basis of life."
"No, that's not what I mean. What I mean is that there are several kinds of molecules that can be made of only carbon atoms. Diamond is just one aspect. There are other unknown carbon combinations in nature. "
"Give me an example."
"Of course, I'm currently working on a carbon molecule like a benzene ring, which will shock the world."
"real or fake?"
"Of course it's true, let's see."
The speaker has no intention, but the listener has a heart.
Shen Guanglin's words were heard by Zhang Shousheng's teacher Lucas. He was very thoughtful. He returned to his laboratory and started various experiments, hoping to find something different.
Shen Guanglin didn't know what the old silver coin was doing until one day Zhang Shousheng said that Lucas was also studying carbon molecules, collecting carbon black and graphite every day.
Moreover, Lucas also observed the graphite slices, just to see what the carbon atoms in the graphite constitute.
I'm going, this bastard thing!
Shen Guanglin didn't even dare to analyze graphite flakes, for fear of discovering something that shouldn't be discovered, because it was not in his current interests.
Shen Guanglin plans to eat a wave of fullerene dividends first, and then eat graphene dividends after the end. This idea is perfect.
Question Now that Lucas is going to make graphite slices, does he want to find graphene?
Fortunately, graphene is a single layer of atoms, and slices cannot be cut out. The discovery process still needs some chance.
Shen Guanglin decided to be more cautious and not to reveal more information to this old silver coin. What if he is not satisfied with slicing and sticks it with tape instead?
Hurry up and get the soccer ball out, and cut off his thoughts.
(End of this chapter)
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