Nanomaterials and
Devices LLC
Functional antibacterial and antiviral coatings on textile materials by plasma deposition.
.png)
The setup allows you to apply aseptic, antibacterial, and antiviral structures of nanomaterials (silver, copper, etc.) by vacuum-plasma spraying. The unit is delivered together with a patented and technology process. The user receives a machine for innovative textile materials production.
The scope is very wide: from hygienic and antiviral masks to special innovative clothes and protective suits, air filters etc.
Technological process
The technological process is based on a patented technology for applying silver (and other metals) onto a textile surface. PVD methods of atomization of the material make it possible to achieve very small sizes of silver particles (5-20 nm), high particle concentrations and, as a result, a significant increase in the activity of metals (bactericidal, antiviral and fungicidal effects).
At the same time, vacuum-plasma technology allows you to save the original properties of textiles:
- avoidance of changes in its structural composition (which is not available for chemical methods of silver deposition);
- avoid overheating of textiles during processing due to the use of “cold” plasma (textile temperature does not exceed 80 C);
- high stability of silver nanoparticles in the structure of textiles.
Moreover, chemical processing methods for fabrics with silver are not eco-frendly, in contrast to the proposed vacuum-plasma approach.
Key characteristics
• The substance of functional nanosilver> 1 mg / l
• Silver nanoparticle size - 1-10 nm
A unique project Silver-mask.ru was implemented on the prototype of the installation that was made by our team.
Production time: 6-12 months.
To develop a project for your tasks, please write to aleksandr.goikhman@nnmd.ru
Competitive advantages of innovative aseptic textiles:
• Protection against bacterial transfer;
• Permanent antimicrobial effect;
• Reducing the risk of contact infection;
• Prevention of unpleasant odors caused by bacteria;
• Health safety (lack of metal salts, formaldehyde, arsenic);
• Lack of allergic reactions;
• Resistant to sterilization.
_ ___________________________________________________________________
A device for the precise positioning of x-ray optical elements
The main feature of this solution is a positioning of standard x-ray optical elements (12 mm in diameter and up to 3 mm thick) with high precision (better than 5 μm) in the x-ray beam.
The device is intended for instrumental focusing and control of the parameters the x-ray flux in the synchrotron radiation channels, laboratory analytical and measuring systems of non-destructive measurements of complex structures and objects.
The most interesting feature of the system is the ability of x-ray lens individual insertion in arbitrary order (e.g. 1, 5 and 64 or 1,2,3,4 lens might be inserted, the order is user-defined)
Also, a clear advantage is the compact size of the device and the high accuracy of lenses positioning.
Key parameters for 64-lenses device:
-
Compactness (dimensions up to 420 x 350 x 350 mm (LxWxH))
-
Light weight (with vacuum chamber - less than 40 kg)
-
Vacuum compatible version - HV, UHV (on request)
-
High repeatability of lens positioning in the beam (+/- 2.5 μm)
-
Ability to individually inserting one lens per cycle into the x-ray beam in the given order
-
Possibility of a step change in the focal length of the optical system
-
Minimal working distance (from first lens to sample - less than 50 mm).
-
System for any number of x-ray optics elements (from 10 pcs.)