FIELD: medical equipment.
SUBSTANCE: invention relates to biomedical equipment. Method of producing nanostructured composite conductive coating is described, involving application of ultradispersed suspension of carboxymethyl cellulose and carbon nanotubes on substrate, then suspension is exposed to laser till complete drying in continuous mode at wave length of 0.81–1.06 mcm, radiation intensity is 1.0–2 W/cm2, exposure time is 10–100 s, and dried material is subjected to thermal treatment by annealing in air at temperature of 40–150 °C for 30 minutes.
EFFECT: higher specific conductivity of coating by more than 50 times during combined performance of laser radiation and thermal treatment is achieved.
1 cl, 1 tbl, 1 ex
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