Great Creator

"On August 5th, today's upper limit of creativity reached 201 points, and the increase speed is quite uniform. Maybe it's the reason why I completely use up my creativity every day? But the recovery speed still hasn't improved. It used to take about 1 hour to recover 4 o'clock, the recovery speed in 1 hour is about 4.3, not even 5 o'clock. Theoretically speaking, my upper limit has been increased from 100 to 201, and the recovery power should also be increased by 2 times. But why is the increase so little? ?”

Huang Si was thinking while writing a diary.

The recovery of creative power is so slow, which makes it very tasteless to increase the upper limit. At most, it is possible to store a little more power and use it to manufacture extremely complex objects or a large number of objects.

How to increase the recovery speed of creativity?

Huang Si has no idea about this problem. He has once again shifted his consciousness to create the book, or ask the book, but the book does not reflect anything, as if it has been completely silent since it was first opened. up.

Don't think about it if you can't figure it out, Huang Si decided to continue to focus on solving real life problems.

The first is the trouble of carbon dioxide.

Huang Si can produce oxygen, but he has no way to eliminate carbon dioxide, and whether it is pancakes or his daily life, a lot of carbon dioxide must be produced.

There are no plants in Huang Si's house, and it is impossible to form an effective air circulation system.

And the dark space where his house is located is also very strange, even if you open the doors and windows, the air will not leak out, no matter whether the internal air pressure is high or low.

As for the things in the room, only when Huang Si took the initiative to throw them out would they disappear into the darkness.

Therefore, in order to solve the increasing carbon dioxide, Huang Si had to design and manufacture a blower by himself referring to the brief introduction in Wikipedia.

This blower is made by Huang Si using a bucket as a template. It has a very long plastic barrel, about three buckets long, with a push rod inside, connected to a ring, and inside the ring is a camera lens. The shutter, push it out, the shutter is closed and airtight, pull it in, and the shutter will open to admit the air.

With this method, Huang Si only needs to expel a small part of the air in the house every few days, and then supplement the air components with oxygen and nitrogen.

Huang Si decided not to think about what would happen to the air, garbage, etc., in the dark space outside.

One day when the dark space is full, I will think about this problem again, and let it be a trash can for now.

"On August 8, there is really little information on solar cells. In short, let's make monocrystalline silicon first."

Huang Si stood by the window and looked at the window glass. The microscopic structure of the glass was enlarged in his eyes. After a while, Huang Si found the silicon molecule in the silicon dioxide molecule.

Then, arrange the silicon molecules in an orderly manner, record them, and then retreat to the macroscopic world to synthesize silicon crystals.

Huang Si stretched out a finger of his right hand in reality, with the fingertip of this finger as the core, the strength was slightly concentrated.

An extremely thin translucent disc was born at his fingertips, and then quickly expanded around. After a while, a silicon wafer the size of a CD appeared.

This silicon wafer is 100% composed of silicon atoms, and the order of arrangement is absolutely regular and tight, so the crystal structure is perfect.

If the researchers of the Academy of Sciences knew about it in reality, they would be envious, because in reality silicon wafers can never achieve percentage purification and perfect structure.

In reality, high-purity silicon wafers are manufactured and are generally used in the production of the most high-end electronic components, such as the latest CPUs and graphics cards.

However, even the most advanced purification and manufacturing technology in reality will leave some flaws, so behind the output of each new CPU and graphics card, there are often several times the number of silicon wafers that are discarded or moved to low-end production lines.

This has led to the high cost of the latest styles of electronic products.

If those IT practitioners know that someone here is using 100% pure and flawless silicon wafers to make solar panels, I am afraid that they will cry to death on the spot.

Because solar panels do not have high requirements for silicon wafers at all, and the surface needs to be frosted, Huang Si is simply reckless.

However, for Huang Si, this is just a question of whether to consume creativity. The production of 100% silicon wafers is much easier for him than 99%.

Huang Si has recorded the structure of silicon single crystal and silicon single wafer in the book, but the silicon wafer used in solar cells must have a rough and uneven surface, and the surface is enlarged to see small facets. Numerous facets can enhance light absorption efficiency.

"Well, the number of facets is qualified, so it should be recorded." Huang Si looked at the surface of the wafer with a microscopic perspective, then nodded, and recorded it in the book.

In the next few days, he also fiddled with components such as reflective films, circuits, and tempered glass.

If it is a modern technology, it needs to use screen printing to print the circuit, but for Huang Si, this is a matter of conceiving one by himself and then directly generating it on the surface.

So far, there are two main things that bother Huang Si. One is that Wikipedia's descriptions are often too simple. Even after checking all the relevant information, it is very difficult to make complex components such as solar cells. Basically, you need to draw your own drawings.

The second is that the recovery of my own creativity is really too slow.

4.4 points in one hour, 105.6 points in 24 hours a day, and the expenses of air, water, daily necessities, power supply, etc. have to be deducted. In the end, Huang Si could control only about 60 free creation points per day.

And if he casually develops something new, such a small amount of creativity will soon be used up.

Many times, Huang Si was forced to learn circuit knowledge while waiting to return to blue.

On August 21, Huang Si finally produced a working solar cell.

Huang Si registered the composition of the solar cell in the creation book and used up the last few points of power.

"My recovery speed should be 4.6 now, but the upper limit of creativity is already 297. Now the amount of recovery in a day is less than half of the upper limit. It's really a headache to wait. The physical strength of mobile games is not so bad."

Due to the limitation of power recovery, Huang Si had to develop various components in batches and batches, so the solar cells were not developed until late August.

Solar batteries are an important part of Huang Si's energy supply plan, because he used to rely on batteries to charge mobile phones and computers, and he had to manually replace the batteries.

It is indeed dark here, there is no sun, but isn't there a book of creation?

Huang Si realized long ago that an unscientific thing like the Creation Book is the only real permanent energy source in this room.

Before the creation of nuclear energy batteries, the real automatic power supply can only be a solar battery pack that relies on the light of the Creation Book to generate electricity.

On August 22 and 23, Huang Si used the creativity recovered during these two days to manufacture 32 solar cells and related components, and then connected them with tempered glass and plastic clips to form a solar panel.

The photoelectric conversion efficiency of solar panels is not high, so a panel cannot provide a high enough voltage.

After that, Huang Si spent another 7 days constructing 4 solar panels, which were connected in parallel with the previous 5 panels for power supply, and finally reached a voltage of 220V.

Huang Si connected the line to the distribution box next to the gate of his house, so the power supply in the house was completely restored, and he no longer needed to use the battery pack circuit he invented for special power supply.

Now, Huang Si put a cabinet in the living room, and put the creation book on the cabinet.

The 5 solar panels are slightly larger than A3 paper, each of which is hooked on the roof by steel cables, enveloping the Creation Book like petals, making full use of the light of the Creation Book.

Of course, Huang Si turned the brightness of the book of creation to the maximum to generate electricity 24 hours a day.

During this process, because Huang Si had to wait for the recovery of creativity, it was really boring. He watched all the dozen or so movies in the hard disk, and even cleared a 3A-level game masterpiece. Now he is playing the second game. Zhoumu.

When he got tired of playing games, Huang Si would read novels, and when he couldn't stand reading novels, he would play games.

No way, in this completely enclosed space, Huang Si's way to keep himself from being bored to the point of going crazy is to find all sorts of interesting things to do.

Without this bit of entertainment, Huang Si was afraid that he would not really go crazy if he was shut up in a room with complete darkness around him for a month or two.

After finishing the solar battery and playing games for a few days, Huang Si began to think about making other automation devices.

Like, an automatic blower? air conditioner? It is best to automatically absorb carbon dioxide.

Or, continue to develop new foods?

Before Huang Si developed the method of making potatoes and ham, these two things were spoiled.

In desperation, he could only throw them away.

This also reminded him that there are still germs in the house, which is why the food is spoiled.

It seems necessary to develop a sterilizing device.

"On September 3, I started to check the information to make ultraviolet germicidal lamps. It seems that the principle is not too difficult. I hope to make it as soon as possible. Today's upper limit has reached 325, and the recovery speed is 5.0. I feel that this upper limit is useless. I don't know. When can we recover sooner?"

By September 7th, Huang Si had hung up ultraviolet disinfection lamps everywhere in the room. The power was a bit high. If they were fully turned on, other electrical appliances would not work.

On September 12, Huang Si used an electric blower to solve the problem of air pollution by carbon dioxide.

On September 15, Huang Si made a light yellow film with vegetable protein, which should be called gluten on the outside. He then spent another day tweaking the structure and improving the texture before finally recording it.

In this way, gluten became the only dish on Huang Si's dinner table. He developed several dishes around gluten, making the meal less difficult to swallow.