The supercrystals are making the new advanced materials and intelligent clothes possible. But they can revolutionize chemistry.

The main problem with intelligent clothes and materials is energy. Solar panels and nano-size generators can give energy to the system. Those systems must be small enough. That they can be effective and comfortable. 

The amorphous silicon or silicon carbide is 10X stronger than Kevlar. That thing can used in the next-generation clothes. The amorphous silicon can form the layer above the plates. And that makes it possible to create new types of highly advanced armor that cover the entire body. 

When we think about the extra-hard crystals they are impressive. But if microprocessors control the structure. That can form small robots. That thing makes them more impressive than ever before. 

"Professor Emiliano Cortés, at LMU, is revolutionizing solar energy capture through nanotechnology. By developing plasmonic nanostructures, his team creates materials that concentrate solar energy more efficiently. Their latest breakthrough, a supercrystal that produces hydrogen from formic acid using sunlight, holds the world record in its field. Credit: SciTechDaily.com" (ScitechDaily.com/Harnessing Sunlight Like Never Before: The Supercrystal Breakthrough)

"Scientists have developed amorphous silicon carbide, a strong and scalable material with potential uses in microchip sensors, solar cells, and space exploration. This breakthrough promises significant advancements in material science and microchip technology. An artist’s impression of amorphous silicon carbide n anostrings testing to its limit tensile strength. Credit: Science Brush" (ScitechDaily.com/10x Stronger Than Kevlar: Amorphous Silicon Carbide Could Revolutionize Material Science) Those silicon carbides can connect using thin and flexible carbon fibers. 

The amorphous crystals can also be used in electrochemistry. In electrochemistry, those super crystals can used as magic sticks that can push and pull ions and anions on the layer. The system can make a revolution in the processes. That electric system makes complicated structures like in medicine creation.  The small size makes it possible to control those electric shocks with very high accuracy. 

"University of Chicago scientists have developed a way to improve chemical reactions in drug manufacturing using electricity. This breakthrough in electrochemistry, enhancing efficiency and sustainability, opens new avenues in green chemical production. Credit: SciTechDaily.com"  (ScitechDaily.com/The Shock Factor: Electricity’s Revolutionary Impact on Chemical Synthesis) 

The highly accurate electric shocks allow the system can control the electron shell position around the atom. The shock system can adjust the touching points of atoms and molecules. 

This type of system can connected with photoacoustic systems. In a photoacoustic system laser ray creates electricity to the structure. That electricity makes the structure oscillate and it sends pressure waves. The system can be two internal fullerene tubes where the outer layer is covered with a 2D silicone structure. The photoelectric phenomenon makes this system oscillate. And the magic stick can move neutral atoms or molecules over the layer. 

The photoacoustic systems can used as a small-size SONAR system, that can take images of the nervous system. The photoacoustic systems can also take similar images of small fibers. This type of system can also used to create nano-bubbles in blood vessels. That takes nutrients for the cancer cells. The photoacoustic system can use human blood cells that it turns to rotate vertically. When the rotating speed of those blood cells is high enough they create a phenomena, called supercavitation.  

Those rotating blood cells make low pressure behind those rotating layers. And that thing forms the microbubbles. The microbubbles can also be used to replace traditional antibiotics. The bacteria eats some small plastic plates, Then the acoustic system starts flipping them. That thing can fill bacteria with microbubbles that can be effective against antibiotic-resistant bacteria. 

Samurai armour.

The amorphous silicon can cover small titanium plates. Or it can form structures that are known for gold necklaces. That makes it possible to create a cube-looking amorphous silicone structure that makes a strong and flexible structure. Those cube's size could be less than a millimeter. Miniature screens can also used for those kinds of systems. 

In intelligent solutions, there may be small screens outside those plates. This makes the invisibility cloak look like a samurai armor. Over those plates can also put the carbonite crystal. That is used in spacecraft glasses. 

If there are small cameras around the suite those screens can make the suit invisible. Those cameras can also send information to the VR (Virtual Reality) or AR (Augmented Reality). The system can tell the user where is other people. And where the threat is coming. This same system can used in helicopters and aircraft. 

The silicone cubes may have small nano-size generators. When the structure moves that generator produces electricity. The silicone cube may be a microchip. The silicone crystals can also covered with a 2D silicone structure. That structure can act as solar panels. And this thing makes intelligent solutions possible. 

The miniature robot cubes or robot bricks can form the non-organic version of the neurocreatures. In that kind of artificial neurocreature, the microchips act as neurons. And the system can connect the processor's power into one entirety. 

In one solution those crystals can be robots that can create clothes or close leaks in tubes, and aircraft and ship's bodies. The nanorobots are very suitable tools for many missions. The thing is that the nanomachines can act like automatized Lego bricks. They can create structures automatically. 

https://scitechdaily.com/10x-stronger-than-kevlar-amorphous-silicon-carbide-could-revolutionize-material-science/

https://scitechdaily.com/advanced-nerve-visualization-with-photoacoustic-imaging/

https://scitechdaily.com/harnessing-sunlight-like-never-before-the-supercrystal-breakthrough/

https://scitechdaily.com/the-shock-factor-electricitys-revolutionary-impact-on-chemical-synthesis/

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