29 research outputs found
Sanitary-epidemiological examination of cancer danger organizations’ passports in Sverdlovsk region
Get PDFIn the publication analyzed the experience of the sanitary-hygienic certification of cancer danger organizations in the Sverdlovsk region. Recommendations for optimization of work on the sanitary- epidemiological expertise of cancer danger productions are given.Проанализирован опыт проведения санитарно-гигиенической паспортизации канцерогеноопасных организаций в Свердловской области. Предложены рекомендации по оптимизации работы по санитарно-эпидемиологической экспертизе канцерогеноопасных производств
First-principle modeling of hydrogen site solubility and diffusion in disordered Ti–V–Cr alloys
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Absorption of bending waves in a plate driven by a normal force source encircled with monopole-dipole resonators
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PARAMETERS OPTIMIZATION OF METAL-DIELECTRIC NANOSTRUCTURES FOR SENSOR APPLICATIONS
No full textWe present calculation results of optical properties of silver nanoparticles with dielectric shell in relation to their applications in chemical and biosensors. Absorption cross-section calculation for spherical silver nanoparticles was performed by quasi static dipole approximation. It is shown that dielectric shell thickness equal to 2-3 nm and its refraction index equal to 1,5-1,75 are optimal. Calculation results were compared to experimental data. Experimental investigation of metal-dielectric nanostructures sensitivity to external refraction index was performed. Synthesis of silver nanoparticles with dielectric shell on glass surface was performed by nanosecond laser ablation method in near-surface glass layer at 1,06 μm wavelength (Solar LQ129). Synthesis of silver nanoparticles without a shell on the glass surface with silver ions was performed using thermal treatment in wet atmosphere. Spectrophotometer Cary 500 (Varyan) was used for spectral measurements. In case of laser ablation method application, external refraction index changes from 1 (the air) to 1,33 (water) and plasmon resonance band shift for 6 nm occurs. In case of another method application at the same conditions the registered shift was equal to 13 nm. However, in the latter case the particles can be easily removed from the substrate surface. Obtained results will be useful for developing chemical and biological sensors based on plasmon resonance band shift
The scattering of flexural waves propagating in a plate from a chain of resonators mounted on it
No full textSmall instrument \u2013 big results \u2013 the application of the Linkam TS1400XY heating stage to melt inclusion studies.
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