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A feature of the POWDIX 600 X-ray diffractometer scheme is the vertical Bragg-Brentano optical scheme with a fixed horizontal sample position, which makes working with powdery materials, gels and other viscous substances more practical and convenient. The high detector resolution and precise positioning of the POWDIX 600 X-ray goniometer achieve an accuracy better than +/- 0.02° (2θ) over the entire angular range. In the POWDIX 600 diffractometer, the X-ray tube is cooled by an integrated closed water circuit, which can be serviced by any laboratory employee. A wide variety of sample holders (holder for massive samples, holder with rotation, phoneless cuvettes) expands the functionality of the POWDIX 600 and makes it an invaluable tool for scientific research in solid-state physics, materials science, chemistry, geology and other fields of science The diffractometer is included in the Russian State Register of Measuring Instruments.

The first Russian In situ bioprinter for printing in the wound bed is a robotic complex for studying surface damage to restore tissues and organs directly in the patient's body. The in situ bioprinter is suitable for biomedical research in the field of tissue engineering in the laboratory. The bioprinter works with various types of hydrogels (including collagen of the first type) with the addition of cells, growth factors, etc. The printing time depends on the size of the defect and takes about 5 minutes on average. The device complex consists of a 6-axis robot, a 3D scanner and a biomaterial dispenser. The printing process includes scanning, tracing, and applying the material. Currently, the In situ bioprinter is at the stage of obtaining a medical device registration certificate for subsequent use in clinical practice. Improved wound healing dynamics strongly suggest that in situ bioprinting can be used as a new successful therapeutic method for the treatment of soft tissue defects. Significant advantages: ● Performs bioprinting even on a dynamically changing surface (optional: adaptation to micro-movements or breathing of the patient) ● Versatile in the use of different types of hydrogels (both sodium alginate and collagen; with and without cells, etc.) An important feature of the In situ bioprinter is that the bioprinter is suitable for various industries and can act as a "classic" 3D printer.

Automated workplace for measuring noise, vibration, processing results and registration of protocols. It is equipped with a laptop with a pre-installed set of programs.