The rise of nanometers

Chapter 553 Activation

After washing up and eating the chicken chop rice that Cheng Cunwu had packed back, Xie Qingcai told Cheng Cunwu what he had discovered.

"The electric field resonance of matter?" Cheng Cunwu thought about it.

He was still unsure about this discovery. After all, what happened on dry ice was the photothermal resonance of light waves. This was a proven theory.

In addition, there are sounds, mechanical waves, optical electric fields, etc., which will produce specific resonance peaks, such as the famous Karman vortex effect.

It is hard for many people to imagine that a gust of wind below Level 10 can tear apart a modern bridge made of reinforced concrete in an instant.

This is the speed and direction of the wind, which just resonates with the structure of the bridge itself, instantly stimulating this magical and huge power.

Resonance is a very strange effect.

In easy-to-understand terms, it means that objects and power (can be sound waves, light waves, electric waves, mechanical waves) reach a specific frequency, and when the two come into contact, they have the effect of getting twice the result with half the effort.

"We need to redesign the experiment, Qing, what do you think?"

After taking a sip of carrot and pork ribs soup, Xie Qing expressed his thoughts: "If it would be too time-consuming and laborious to try one compound at a time, my idea is to start with the basic elements."

"Basic elements? This is a bit interesting." Cheng Cunwu immediately understood the other party's intention.

There are only 118 types of atoms currently known to humans, including 24 artificially synthesized elements.

If we exclude some elements that are not commonly used, we can only count about 40 to 50 kinds of basic elements that are commonly used by humans.

Xie Qing firmly believes that if there is a resonance frequency synthesized by electric fields, then this resonance frequency must start from basic elements and then develop to more complex compounds.

After a quick lunch, the two called Xiong Lingxi and came to the laboratory.

Xie Qing opened his notebook, sent the contents he had thought about in the early morning to the two of them for detailed review, and then began to design experiments.

Since they wanted to find out the electric field resonance frequency of the basic elements, they started with the lightest hydrogen element, then helium, lithium, beryllium... and went up one by one.

At 3:30 in the afternoon, they started an experiment, using liquid hydrogen as the raw material, then turning on the electrostatic field, and started preliminary experimental observations.

After two busy weeks, they completed some preliminary experiments on the first eight elements.

During the experiment, Xie Qing and the others have been trying to find out a certain pattern of the electric field acting on these elements.

After countless experiments, they finally saw a glimmer of light.

"Temperature, the temperature of matter, especially solid matter at low temperatures." The table in front of Xie Qing was filled with various statistical tables.

Among them, he placed several statistical tables in the middle, which listed eight elements. At different temperatures, by covering the electrostatic field, the efficiency of electrocatalysis can be achieved.

"There are some rules about this temperature." Cheng Cunwu counted the resonance temperatures of hydrogen, helium, lithium, beryllium, boron, carbon, nitrogen, and oxygen.

Among them, hydrogen is minus 24 degrees Celsius, helium is minus 123 degrees Celsius, lithium is minus 26 degrees Celsius, beryllium is minus 37 degrees Celsius, boron is minus 45 degrees Celsius, carbon is minus 56 degrees Celsius, nitrogen is minus 66 degrees Celsius, and oxygen is minus 78 degrees Celsius.

Regarding these data, Xiong Lingxi predicted: "Then the electric field resonance temperature of fluorine should be between minus 80 and 90 degrees Celsius, but neon and helium are in the same family, so I guess it may be similar to helium."

"You'll know after you try it." After Xie Qing finished speaking, he pulled out a piece of white paper and wrote two experimental designs on it.

According to the experimental design, they found the electric field resonance frequency of the fluorine element in the range of minus 80 to 90 degrees Celsius.

The neon element in the same family of inert gases is roughly the same as Xiong Lingxi predicted. The electric field resonance temperature of this element is about minus 127 degrees Celsius.

At night, the laboratory is still brightly lit.

The three of them discussed excitedly.

Xiong Lingxi pointed to the histogram and said: "If we go by current estimates, I predict that the electric field resonance temperatures of sodium, magnesium, aluminum, silicon, phosphorus, sulfur, chlorine and argon should also progress within this range."

"But what about the 19th to the 36th?" Cheng Cunwu was a little confused.

At this time, Xie Qing said: "The temperature interval may change from approximately 10 degrees Celsius to approximately 4 degrees Celsius."

"It makes sense." Cheng Cunwu thought about it.

Of course, temperature alone is not enough to produce electric field resonance. This electric field resonance requires another factor, that is, electric field strength.

Therefore, the core principle of electric field resonance is electric field strength + material temperature, and the electric field strength also increases with the increase in the number of electrons in the outer layer of atoms.

The temperature and intensity cannot be set too low or too high, nor can they achieve optimal coupling at the same time.

When the temperature and electric field strength reach the optimum, the chemical reaction efficiency of the elements reaches the highest level. Even helium and neon in inert gases can produce relatively high chemical reactions.

Xie Qing's team tried to synthesize methane from hydrogen and elemental carbon.

During this synthesis process, they further discovered the principle of electric field synthesis, which is to give the material a temporary electric field force. At a certain temperature, the electric field force can be retained in the material for a relatively long time, usually reaching 20 to 70 minutes or so.

Materials that are endowed with electric field force will become easily combined when meeting other materials.

Xie Qing calls this phenomenon "activation", which means that substances become highly active and can easily react with other substances.

Both substances combine more easily if they are activated substances.

During the reaction of elemental carbon and hydrogen to synthesize methane, they found that the overall thermal efficiency of the system was as high as 86.7%, which is an incredible thermal efficiency.

It should be known that when N16 is used as a catalyst to decompose macromolecular organic matter to form methane, the comprehensive thermal efficiency is only about 63.54% to 71.63%.

As for the experiment they designed, because it was not professionally designed equipment, the entire reaction system was very rough, and it was definitely not the highest comprehensive thermal efficiency of the reaction.

Such an efficient response made all three of them feel incredible.

"This discovery alone can save a lot of unnecessary energy consumption in chemical reactions. It seems that we have discovered something remarkable." Cheng Cunwu's breathing became somewhat rapid.

After Xie Qing calmed down, he thought for a moment and said, "The most urgent task is to determine whether the electric field resonance rules of the next elements are what we expected."

"Yes! I agree." Xiong Lingxi nodded.

The three of them spent more than a week. Due to the laws of electric field resonance this time, their experiments were very precise.

Basically, an element only needs three or four fine adjustments to measure the temperature and electric field strength of its electric field resonance. In more than a week, they tested 46 elements, which were the same as the previous 8 and all conformed to the set of rules and models. .

The electric field resonance law of basic elements is between minus 24 and 135 degrees Celsius, and is negatively correlated with the number of electrons in the outer layer of the atom; while the electric field strength and reaction resonance are positively correlated.

Based on relevant data, they derived the first and second laws of electrocatalysis.

When their thesis was completed, it was already November 16, and as their supervisor He Wen, he also received the first draft of the thesis on the same day.

Thank you for your support (ω`)

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