When a system creates nanostructures. It requires high-resolution systems that can observe the position of every component in nanostructures. Some nanostructures require a medium to support them while the system creates those 3D structures. And in the medium the electromagnetic systems cause situation where the medium's temperature rises. Some of those complicated structures require certain temperatures and electromagnetic environments. That the system can put them together like a puzzle.
When some system is making nanomachines the system must see what happens. If the nanostructure requires extremely low temperatures like superfluid (liquid Helium). Electromagnetic systems can raise the temperature too high. And acoustic systems can make it possible to move objects in the liquid.
The new mathematical model enhances ultrasound resolution. That thing might be useful in the new types of SONAR systems. Acoustic- or sonar systems can also act as extremely sharp LRAD systems. But the high-ultrasound resolution can make it possible to use ultrasound systems to move objects and observe things like growing crystals and nanomaterials. High-resolution ultrasound sonars can move particles in the medium. And that thing makes it possible to create new types of long and complicated nanostructures.
The new systems can also scan things like DNA molecules and find is there something wrong. The extremely high-resolution ultrasound can use to transport the amino acids in the precise right place in complicated structures. And the use of nanotechnology is increasing. Nanotechnology makes it possible to create new types of material where their structures plan from the atomic level.
"MIT engineers have designed tissue-derived “smart” sutures, pictured here, that can not only hold tissue in place, but also detect inflammation and release drugs. The sutures are coated with hydrogels that can be embedded with sensors, drugs, or cells that release therapeutic molecules. Credit: Courtesy of the researchers." (ScitechDaily.com/Healing Innovation: MIT Engineers Create “Smart Sutures” That Can Deliver Drugs or Sense Inflammation)
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The new intelligent sutures can use in many roles.
Things like nano-flaps can give things like sutures new abilities. In that case, the long sutures are covered by nano flaps. And then those things are making it possible that hollow fibers can deliver medicines precisely in the right places. Intelligent sutures can use to cover the ship's hull or aircraft's body.
Those sutures can use as aerodynamic troughs. That is used in X-21 test planes. That structure decreased the use of fuel. And the same structure can also observe things like how the aircraft's body stands against stress. The intelligent materials can also see if somebody touches the surface. The idea is that the nano flaps are open if something touches the surface.
And that pulls air into the nanofiber. That thing can interact with some chemicals. Or the system can use nano-size pressure metering systems. when the nano flap opens it causes a change in the pressure. And a pressure sensor can detect that thing. Or the system can use laser light that is sent through those fibers. When the position of the fiber changes that affect the laser ray. And the system notices that something touches those structures.
The new nanostructures are making it possible to create new intelligent materials. Those materials can make life safer. They can make it possible that things like clothes can see if there is fire. Or something like dangerous chemicals. Those new intelligent materials can use in normal clothes. Or they can look like Rya. Intelligent materials are the ultimate tool in many cases.
https://scitechdaily.com/bubble-wonder-researchers-develop-new-mathematical-model-to-enhance-ultrasound-resolution/
https://scitechdaily.com/healing-innovation-mit-engineers-create-smart-sutures-that-can-deliver-drugs-or-sense-inflammation/
https://en.wikipedia.org/wiki/Northrop_X-21
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