Problem. Current printing technology of nano-layers and 3d printing has some drawbacks that prevent their spread. Our technology allows us to achieve a high degree of uniformity and adhesion due to the small size of the droplets. Electrical activation droplets and nanoparticles allows achieving adhesion layer to a wider class of substances, so that the product can be printed in full cycle. Elements of artificial intelligence and neural networks in digital recognition and printing control can reduce the amount of rejection to zero.

This way to modern research of solar cells, batteries, fuel cells, membranes in universities and companies require rapid prototyping of different design options. This would speed up the research process. Therefore, we believe that no less than 1,000 laboratories could buy our printer.

Solution and product. We develop the technology of smart manufacturing, like a printer, while layers are deposited of surface electro-activate nano-droplets, that allows to achieve the accuracy of the layer thickness of 50 nm and a controlled porosity. The printer no longer blind, and can scan and correct their mistakes, like craftsmen. Applications is the individual manufacturing for flexible, different shaped, textile integrated electronics, solar cells, batteries, bio-inspired membranes We can form a very small droplet size of less than a micrometer and compress their flow, but due to the activation of the surface, they do not stick together. High Definition Camera and sensors scan the surface and digital recognize, and comparing the recognized drawing with the original, you can avoid mistakes

Your computer is inserted into a pattern of future products and materials selected for each layer. The printer cartridges are inserted with the correct materials. The printer attached storage, which will be printed materials. Turn on the scanner and it digitizes its shape. Next on the computer selected location on a digitized workpiece where printing will occur. During printing, the scanner compares the printed object with a pattern and displays percentages. If the discrepancy is strong, then the printer head back and corrects

We focused on solar cells, optics and elecrocemical materials

Howewer,  possibly to use print foloewing devices:

1.Solar cells a)Tandem solar cells with bottom silicon,b) CIGS Roof shape solar cells c) Metal-surface solar cells d) Porouse textile clothes with integrated flexible solar cells  e) Integrated solar cells with OLEDS Metal print back electrode and contacts Nonlinear optical plastics : flat solar concentrator

2.Membranes a) Electrodyalysis membranes, nanoporosity control membranes Desalination, selection cleaning food processing industry, milk, jus, wine b) Ultrafiltration membranes c) Fuel cell proton exchange membranes d) Membranes for accumulator batteries, redox electrolyte batteries e) Bio-inspired medical membranes (hyaluronic acid, ) Hemodialysis, artificial kidney.

3 Transparent conductive oxide (laser plasma cold deposition) a) Silicon solar cells covering - increase efficiency 2-3 % , because decrease resistive losses b) OLEDs Screens, different shapes, flexible c) Smart window glass (electrochromic)

4. Electronics a) Different shape electronics printed  circuit board b) Multi layers printed  circuit board  c)Transparent electronics components  d)Flexible, textile integrated  electronics e) Printed metal  conductive lines k) Printed resistor, capacitors l) Printed diodes, transistors , logic (low repeated parameters)

5. Accumulator batteries  a) Al-air batteries b) Zinc-air batteries c) Li – ion electrodes with control porosity,d) membranes for electrolyte separation graphene batteries

 6.Printed composite advanced materials a) Aerospace:  smart materials with sensors integrated, b) Self cleaning, self healing  c) Meta-material, multiferroic printing.

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