Creating systems read information from the media using the fluorescent effect of retro-emission

Priority technical objectives:
   ­  Optimization of the optical properties of the REM device based on theoretical and experimental modeling
   ­  Creation of nano-sized water-soluble anti-Stokes phoshors and development of technology for cost-effective application of REM
   ­  Designing, prototyping and testing reader, capable of reliably and with a larger (at least 1 meter) radius of the capture, process and decode the information.

Obtained encouraging preliminary results. Our colleagues from Macquarie University (Australia) were 13-fold signal enhancement using the REM device with the theoretical estimate 30-fold.

In the company's disposal is the the technology of laser remote sensing. During the field tests for the detection of objects with a fluorescent marker reached the range of the radar 200-400 m. There is reason to believe that REM devices allow to increase the range of the method in 3 more-fold.

A key area of application of REM is logistics, including: automatic identification of luggage on the conveyor lines, security, tolerance, dense storage, etc. Back to top...

Innovative projects in the logistics sector

Possibilities of luminescent matrix code for applications anticounterteiting

High information capacity of luminescent materials, coded in color, to create a new generation against forgery. Deposition of multilayer fluorescent matrix code (LC) on the document/object displays protection antikontrafact to unprecedented levels. Using fiber-optic device reader can immediately acces both the ID of the object/document, and verifying its authenticity. Technology is compatible with existing protocolos-2D-bar codes.

Information recorded by the location of the code elements, color and tone luminescent materials and repeatedly validated. Depending on the material code can be both visible and invisible.

The main objectives of the project:
   ­  Tests of the fluorescent nano-based inks LC. The development of printing on various substrates
   ­  Improvement reader, aimed at is miniturization and reliability
   ­  Optimization of the decoder to improve the reliability read LC codes.

To date, the synthesized base ink.

Our confidence in the high antykontrafact protection is based on confidential discussions with the developers in this area, for example, major producers of high-tech banknotes Australia and Indonesia. Back to top...

Innovative technologies for applications anti-counterteiting

Deep optical sensing of biological tissues using nanophoshors for medical applications

The project aims to develop methodologies and the establishment of the deep optical sensing of biological tissues to contain physiologically active and pathological (eg tumor) regions with the use of optical probes, namely, nano-sized phosphors (NAF).

Project Objectives:
   ­  Synthesis, diagnostics and optimization of the photophysical properties of NAF
   ­  Surface modification of NAF in opder to achieve the water-colloid stability
   ­  Modeling properties of NAF. 4. Designing and building the laboratory prototype optical tomography
   ­  Experiments in the diagnosis of cancerous tumors in animals
   ­  Certification procedures and equipment, obtaining ethical permission to conduct clinical trials technology. Clinical trials intra-operative diagnosis of sentinel node metastases.

Commercial product is tool for optical tomogpaphy, and the medication based on NAF.Back to top...

Innovative technologies for medical applications