God-level academic master: My knowledge is the sum of all my students’ knowledge!

Huo Ting is a top student at Jinling University.

As a student of a C9 League university, she has always been very confident in her talent.

After Academician Chen Yu came to the school to give lectures, many students from Jinling Agricultural University also came to attend the lectures.

After learning that Academician Chen was going to set up a research group, countless students in the two schools signed up.

Huo Ting was naturally one of them.

After she signed up, she successfully became a member of the nano-agriculture research group after many tests.

There are countless benefits to joining Academician Chen’s research group.

For example, you can get a high allowance of 50,000 yuan.

For example, the research group has endless scientific research funds.

For example, the research group has various high-end scientific research equipment.

For example, there are million-dollar luxury cars that can travel freely between Suzhou and Jinling.

For example, you can get sufficient exercise and improve your scientific research ability.

For example, you can get a scholarship from the school and publish high-quality papers.

For example, if you perform outstandingly, you can go from being a student in Academician Chen’s research group to becoming Academician Chen’s personal disciple.

Nowadays, Academician Chen Yu is the richest man in Xiaguo.

You can become Academician Chen’s beloved disciple.

Not to mention becoming famous in this field, at least you will have no worries about food and clothing for the rest of your life.

That’s why

Huo Ting came to the research group and found that her workplace was the Nano-Agricultural Engineering Center in the Universal Science Laboratory.

In addition to 20 students, there are more than 50 full-time researchers.

They are studying topics such as nano-carrier delivery technology for agricultural chemicals, nano-gene manipulation technology, nano-food technology, agricultural ecological safety and environmental restoration technology. The researchers were very happy about the arrival of the students and took the initiative to introduce the Nano-Agricultural Engineering Center.

“Nanotechnology has developed into a cross-cutting frontier leading discipline, expanding and deepening human’s ability to understand the natural world, opening up a new era of manipulating atoms or molecules to create materials and devices, and is triggering a new industrial technology revolution.”

“The mutual penetration of nanotechnology and agricultural technology has also given rise to emerging disciplines such as agricultural nanotechnology, providing new theories, methods and technical means for agricultural science.”

“Our Nano-Agricultural Engineering Center, with the resources of the entire industry, has gradually become the first professional research platform for agricultural nanotechnology in China.”

“The center is fully equipped with scientific research equipment, including atomic force microscope, Zeta potential nanoparticle size analyzer, isotope mass spectrometer, ultra-high performance liquid chromatography/quadrupole-time of flight mass spectrometer, high-resolution laser confocal micro-Raman spectrometer and other dedicated core equipment.”

“……”

Huo Ting came to the Nano-Agricultural Engineering Center and studied very seriously.

On the third day of joining the research group, she met Academician Chen Yu.

Chen Yu told everyone that the main projects were nano-fertilizers and nano-pesticides.

Nano-fertilizer refers to a new type of fertilizer that uses nanotechnology to compress traditional fertilizer molecules into smaller particles for plant absorption.

Traditional fertilizers have low crop yields, large particles, are not easily absorbed, have low utilization rates, and cause damage to the environment.

Nano-fertilizers can be easily absorbed by plants, have high utilization rates, increase crop yields, and will not damage the environment.

Nano-pesticides refer to pesticide preparations that, based on certain pest control scenarios, use functional materials and nanotechnology to make the active ingredients of pesticides in the preparation and use of the dispersed system to exist stably in a nanoscale dispersed state, and can exert application performance that is different from the original dosage form when used.

Traditional pesticides are difficult to dissolve, insoluble in water, difficult to mix, and can cause damage to the environment.

Nanopesticides can spray mist insecticides, nutrients and other drugs evenly on crops without much damage to the environment. On the first day of his arrival, Academician Chen Yu assigned tasks to everyone.

They were asked to find all the nano fertilizers and nano pesticides on the market and make relevant summary statistics.

Huo Ting and the other 19 students were busy non-stop.

After a while, everyone worked together to hand over the body data to Chen Yu.

The data content was very detailed.

In terms of fertilizers, single metal nano iron powder micro-fertilizer can increase food by 24% to 42%, with a dosage of 1 gram of nano per mu. The advantage is that it promotes the development of crop root systems and seedlings, and can also enhance the disease resistance, drought resistance, cold resistance, etc. of crops.

Agricultural nano carbon mixed fertilizer can increase the yield of grain crops by 10%-30%, and the yield of vegetables and fruits can reach 20%-50%. The advantages of each mu are improving soil, improving quality, increasing yield, drought resistance and water saving, etc.

Nano mineral fertilizers, using selenium-rich carbonaceous siliceous rock powder as raw materials, are made into nano long-acting selenium fertilizers through ultrafine grinding, which can increase the growth rate and yield of soybeans by 33% and 20% respectively, and have the advantage of increasing crop yields.

Nano silicon dioxide fertilizers can extend the release cycle of nitrogen fertilizers, improve the controlled release performance and fertilizer efficiency of fertilizers, and reduce the amount of fertilizers used per unit area by 25%.

In terms of pesticides.

2% imidacloprid has a good effect on the prevention and control of leek maggots.

26% high flumethoxam can effectively prevent and control the damage of garlic maggots.

12% cypermethrin suspension is suitable for integrated pest management and resistance management.

5% avermectin microemulsion has a good control effect on rice leaf rollers.

15% flonicamid bifenthrin suspension has outstanding control effects on most resistant insects, such as thrips, whiteflies, planthoppers, tea green leafhoppers, cotton aphids, peach aphids and other common insects, and has a good control effect.

After reading the data, Chen Yu said,”Have you noticed that these fertilizers and pesticides have not reached the true nanoscale?” As soon as he finished speaking, everyone present nodded.

Pesticides and fertilizers are all nano-drug delivery systems formed with the help of nano-preparation technology.

Rather than the active ingredients at the nanoscale.

You know, 1 nanometer is only one 80,000th of the diameter of a hair!

With existing technology, it is difficult to reduce fertilizer particles and pesticide preparations to nanoscale.

Huo Ting raised her hand and asked,”Teacher, do you mean that only when fertilizer particles or pesticide preparations are truly reduced to nanoscale can they be considered true nanopesticides and nanofertilizers?

”

“That’s right!”

Chen Yu nodded and said,”If we use this data for analysis.

The overall yield increase rate of single metal nano iron powder micro-fertilizer is the highest, and its particles are the smallest. The product fineness of these pesticide preparations is only about 200 nanometers.

I really want to know, if the fertilizer particles and pesticide preparations are about 1 nanometer, will the crop yield be increased?”

Huo Ting continued:”Teacher, with the existing technology, it is difficult to produce real nano pesticides and fertilizers.

Nano pesticide manufacturers have introduced a heavyweight precision instrument from Ruishi Country-the nano sand mill testing machine, which allows them to reach a fineness of 200 nanometers.

And our laboratory does not have this kind of equipment at all.” Nanometer precision has always been hailed as the crown jewel of ultra-precision machining technology.

Western developed countries regard it as a strategic resource and strictly restrict its export.

To produce nano pesticides, high-precision machining technology must be mastered.

In this regard, the country still lags behind a lot.

“No need to worry!”

Chen Yu smiled and waved his hand:”Two years ago, Professor Li Shengyi of the National University of Defense Technology led the precision engineering innovation team to make a major breakthrough in ultra-precision parts processing.

They developed two ultra-precision polishing equipment with independent intellectual property rights, magnetorheological and ion beam, reaching the sub-nanometer level, creating the Xiaguo precision miracle.

Since then, they have cooperated with the Xiaguo Academy of Sciences, Xiaguo Aerospace Science and Technology Group, Xiaguo Aviation Industry Group and other companies to develop two major categories and 7 models of magnetorheological and ion beam polishing machine tools.

We can find each other to cooperate and use their ultra-precision machine tools!”

“Sub-nanometer?”

The students present were all stunned.

1 nanometer is already exaggerated.

And anything smaller than 1 nanometer is called sub-nanometer.

If we can really borrow other people’s machine tools, we can definitely produce nano fertilizer particles and nano pesticide formulations in the true sense!

……

Chen Yu is very efficient.

He quickly found Professor Li Shengyi’s team at the National Defense University and expressed his desire to borrow the polishing machine.

Chen Yu has a very high reputation in the scientific community today.

Li Shengyi’s team agreed very straightforwardly.

Soon, the two sides cooperated to produce fertilizers and pesticides of various precisions such as sub-nanometer, 1 nanometer, 2 nanometers, 5 nanometers, 10 nanometers, 20 nanometers…

100 nanometers.

Then, the students in the research group quickly conducted relevant experiments.

As one of the team members, Huo Ting tested five vegetables with short growth cycles.

They are fast-growing Chinese cabbage, fast-growing chicken feather vegetables, small-leaf chrysanthemum, cherry radish, and arugula.

Normally, these five vegetables only take one month from sowing to harvesting, which is suitable for the planting environment in various places.

As a top student in the field of agriculture.

(To read the violent novel, go to Feilu Novel Network!

) Huo Ting is naturally very proficient in vegetable sowing and planting techniques.

She found a test field, divided into 10 areas per acre, for control tests.

Fast-growing pakchoi, planted in A.

A1 uses sub-nano fertilizers and pesticides, A2 uses 1 nano fertilizer and pesticides, A3 uses 2 nano fertilizers and pesticides, A4 uses 5 nano fertilizers and pesticides…

A10 uses 100 nano fertilizers and pesticides.

Fast-growing chicken feather vegetables, planted in B acres.

B1 uses sub-nano fertilizers and pesticides, B2 uses 1 nano fertilizer and pesticides, B3 uses 2 nano fertilizers and pesticides, B4 uses 5 nano fertilizers and pesticides…

B10 uses 100 nano fertilizers and pesticides.

Small-leaf chrysanthemum, cherry radish, rocket, and so on.

Starting from this day.

Huo Ting came to the field every day to water, fertilize, and keep the soil moist.

I thought such a day would be very boring.

After all, it takes a month from sowing vegetables to harvesting.

What she didn’t expect was…

just the afternoon of the first day.

Fast-growing Chinese cabbage, fast-growing Chinese cabbage, small-leafed chrysanthemum, cherry radish, and rocket have already sprouted and grown true leaves.

[]

Fast-growing Chinese cabbage, fast-growing chicken feather vegetables, small-leafed chrysanthemums, cherry radishes, and rocket began to grow wildly.

This immediately aroused Huo Ting’s interest, and she continued to fertilize and spray pesticides on these vegetables.

When the time came to the third day.

Five kinds of vegetables can be harvested…

You heard it right!

They can be harvested and picked!

Of course, the areas that can be picked are only A1, B1, C1, D1, and E1, which means using sub-nano fertilizers and pesticides.

After Huo Ting recorded the data, he continued to observe the follow-up situation. When the time came to the fifth day.

A2, B2, C2, D2, and E2 areas can be harvested. When the time came to the tenth day.

A3, B3, C3, D3, and E3 areas can be harvested.

When the time came to the twentieth day.

A4, B4, C4, D4, and E4 areas can be harvested.

Every day after that.

Each area will be harvested one after another.

A whole month has passed.

Huo Ting came to the final conclusion.

That is, the use of sub-nano fertilizers and sub-nano pesticides can make vegetables grow ten times faster!

It is worth mentioning that.

In terms of yield.

The fast-growing Chinese cabbage, fast-growing chicken feather vegetables, small-leaf chrysanthemums, cherry radishes, and rocket harvested in three days are also ten times the size of ordinary vegetables outside!

Of course, Huo Ting is very scientific.

She also did a lot of work while waiting for the crops to mature.

For example, watching video recordings of vegetable growth.

For example, conducting a comprehensive inspection of five kinds of vegetables.

For example, investigating the nutritional content and taste of five kinds of vegetables.

For example, investigating trace elements and related components in the soil.

For example, statistics on weather, temperature, humidity, air pressure, light, wind speed, water consumption and other data for one month.

In the end, Huo Ting came to a conclusion.

That is, the use of sub-nano fertilizers + nano pesticides, combined with the correct vegetables���In terms of planting, it can make vegetable production ten times faster and the yield per acre ten times higher!

……

During this time,

Huo Ting also paid attention to the experiments of other students.

Some of them were growing potted fruits.

Surprisingly, every potted plant that used sub-nano pesticides and sub-nano fertilizers grew amazingly and was full of fruits.

The strawberry potted plants were full of densely packed strawberries. The tomato potted plants were full of bright red tomatoes among the green leaves, and the number was amazing. The watermelon potted plants were full of round and big red watermelons.

The pomegranate potted plants were colorful and looked like red gems. The blueberry potted plants were full of blueberries on the lush blueberry seedlings.

The grapes in the grape potted plants were the same size as longans, like jasper. The mango potted plants were full of juicy mangoes, and the number was large.

The orange potted plants were full of yellow oranges, which was a great harvest.

The red dates in the red dates potted plants bent the branches, which was very tempting.

The plump figs on the fig pots are mouth-watering.

The students they found are the same as Huo Ting.

The use of sub-nanometer pesticides and the cost of planting potted fruits are ten times faster than outside, and the yield per mu is ten times higher!

……

When Chen Yu saw the test data of 20 students, he smiled and nodded.

He said,”It is exactly as I expected.

The finer the precision at the nano level, the more it can stimulate plant growth, promote the activity of various enzymes in plants, increase crop yields, improve plant quality, and enhance plant resistance to environmental stress and a friendly plant growth environment.

At the same time, nano fertilizers have surface effects and small size effects, which enhance the adsorption performance of fertilizers and reduce fertilizer loss in the soil.

During the growth of plants, the roots have fertilizer and water tendencies.

Nano fertilizers can be fully adsorbed and combined on the surface of the root system, promoting the absorption of nutrients by the root hair area.

Nano pesticides, which wrap pesticides in nanoparticles, improve targeting and control effects, thereby enhancing the ability of crops to prevent pests, increase per mu yield and accelerate growth.” As soon as the words fell, the students were all excited.

It was undoubtedly a happy event for them to be praised by Academician Chen.

Obviously, this month’s hard work is worth it!

Chen Yu continued,”We don’t have enough test data at the moment. It’s the end of April, which happens to be the time for sowing early rice.

We need to contract at least 100 acres of arable land and continue the experiment with nano pesticides and nano fertilizers.

The research team needs to conduct experiments on more fruit trees, vegetables, and staple crops.

Only in this way can we finally draw a conclusion!

Moreover, the conclusion does not represent the research team’s achievement.

Because the production of sub-nano pesticides and sub-nano fertilizers is very expensive.

This also requires us to find ways to save costs and produce high-quality and low-cost sub-nano pesticides and fertilizers.……”

At this moment, all the students, including Huo Ting, were very excited.

If the next experiment could be successful, then sub-nano pesticides and fertilizers would definitely bring about a revolution in the agricultural field!