TECHNOLOGIES:

IN BRIEF
STÚLB™ TECHNOLOGY
BCC Lab METAL ALLOY COATING
STÚLB™ is generic new laser based technology for deposition of thin films, ultra-thin films, nanocoatings and nanostructures from inorganic or organic (including polymers, biopolymers, proteins) and complex materials on inorganic, organic or complex substrates in one device and in one technological cycle with preliminary determinate physical-chemical properties and strong control of process. Recently the technology is used for coating medical implants and sensors.
Biocompatible & biodegradable metal alloy M 014 has been deposited as ultra thin film on polymeric, metal and ceramic substrates.
THIN AND ULTRA THIN COATINGS ON POLYMER TEXTILE SUBSTRATE
 

BioCoat Lab Division started deposition of nano films of polymer P 329 and/or gelatine and/or gelatine-drug mixtures on goffer textile substrate, to be used as cardiovascular implant. Ultra Hydrophobic biocompatible hybrid material might be coated as well.
Normaly, the textile not treated by gelatine has water-permeability.of about 0.8 - 1.5 l/min/sq.cm and practicly zero after treatment.

NANOSTRUCTURES COATED WITHIN POLYMERS, BIOPOLYMERS AND POLYMER SYSTEMS
Nanostructures with highly controllable properties integrated whithin polymers, biopolymers and biological system at nanoscale. might be used for applications in new hybrid nano devices with unique properties, in the pharmaceutics, medicin, electronics, bioengineering and aerospace industries. STÚLB™ is capable of forming hybrid nanostructures and biofilms in single technology cycle.
By
STÚLB™ we perform controllable deposition of complex biopolymers and organic materials. Selected rezomer – PGLA is synthetic biodegradable biopolymer. Myoglobin B is protein with mol. 17400 Dalton. Both materials are applied in pharmaceutics and stent manufacturing. Multi-layered films are deposited without any risk of harming deposited material properties onto any surface. STÚLB™ does not use any dissolving agent in any aggregate condition.
Structure analysis of these films have been quantified using Fourier Transform Infrared Spectroscopy (FTIR) for comparisons to native materials.
 
   

 
 
 
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