Труды КНЦ (Технические науки вып.3/2023(14))

Труды Кольского научного центра РАН. Серия: Технические науки. 2023. Т. 14, № 3. С. 181-185. Transactions of the Kola Science Centre of RA s . Series: Engineering Sciences. 2023. Vol. 14, No. 3. P. 181-185. 4. Sharma V. K., Yngard R. A., Lin Y. Silver nanoparticles: green synthesis and their antimicrobial activities // Adv. Colloid Interface Sci. 2009. Vol. 145. P. 83-96. 5. Synthesis of starch-stabilized silver nanoparticles and their application as a surface plasmon resonance-based sensor o f hydrogen peroxide P. Vasileva ^ t al.] // Colloids Surf., A. 2011. Vol. 382. P. 203-210. 6. An improved step-by-step airflow/paper-based colorimetric method for highly selective determination of halides in complex matrices / M. O. Gorbunova ^ t al.] // Talanta. 2020. Vol. 219. P. 121254. 7. A dynamic gas extraction-assisted paper-based method for colorimetric determination of bromides / M. O. Gorbunova fct al.] // Anal. Methods. 2020. Vol. 12. P. 587-594. 8. Determination o f iodide based on dynamic gas extraction and colorimetric detection by paper modified with silver triangular nanoplates / M. O. Gorbunova ^ t al.] // Microchem. J. 2019. Vol. 145. P. 729-736. 9. Gorbunova M. O., Bayan E. M. A novel paper-based sensor for determination of halogens and halides by dynamic gas extraction // Talanta. 2019. Vol. 199. P. 513-521. 10. Dynamic gas extraction o f iodine in combination with a silver triangular nanoplate-modified paper strip for colorimetric determination o f iodine and of iodine-interacting compounds / M. O. Gorbunova ^ t al.] // Microchim. Acta. 2019. Vol. 186. P. 188. 11. Towards highly selective detection using metal nanoparticles: A case of silver triangular nanoplates and chlorine / V. V. Apyari fct al.] // Talanta. 2018. Vol. 176. P. 406-411. 12. Selective determination of chloride ions using silver triangular nanoplates and dynamic gas extraction / M. O. Gorbunova fct al.] // Sens. Actuators B. 2018. Vol. 256. P. 699-705. 13. Получение реактивных индикаторных бумаг с треугольными нанопластинками серебра для химического анализа / В. В. Апяри [и др.] // Вестн. Моск. ун-та. Сер. 2. Химия. 2017. Т. 58, № 4. C. 170-177. References 1. Morones J. R., Elechiguerra J. L., Camacho A., Holt, K., Kouri, J. B., Ramfrez, J. T., YacamanM. J. The bactericidal effect o f silver nanoparticles. Nanotechnology, 2005, Vol. 16, pp. 2346. 2. Dror-Ehre A., Mamane H., Belenkova T., Markovich G., Adin A. Silver nanoparticle — E. coli colloidal interaction in water and effect on E. coli survival. Journal of Colloid and Interface Science, 2009, Vol. 339, pp. 521-526. 3. Li W., Shi Q., Chen Y.B., Ouyang Y.-S., Duan S.-S. Antifungal effects of citronella oil against Aspergillus niger ATCC 16404. Applied Microbiology and Biotechnology, 2013, Vol. 97, pp. 7483-7492. 4. Sharma V. K., Yngard R. A., Lin Y. Silver nanoparticles: green synthesis and their antimicrobial activities. Advances in Colloid and Interface Science, 2009, Vol. 145, pp. 83-96. 5. Vasileva P., Donkova B., Karadjova I., Dushkin C. Synthesis of starch-stabilized silver nanoparticles and their application as a surface plasmon resonance-based sensor o f hydrogen peroxide. Colloids and Surfaces A, 2011, Vol. 382, pp. 203-210. 6. Gorbunova M. O., Apyari V. V., Baulina A. A., Garshina M. S., Kulyaginova M. S., Shevchenko A. V., Furletov A. A., Dmitrienko S. G., Zolotov Y. A. An improved step-by-step airflow/paper-based colorimetric method for highly selective determination of halides in complex matrices. Talanta, 2020, Vol. 219, pp. 121254. 7. Gorbunova M. O., Garshina M. S., Kulyaginova M. S., Apyari V. V., Furletov A. A., Garshev A. V., Dmitrienko S. G., Zolotov Y. A. A dynamic gas extraction-assisted paper-based method for colorimetric determination o f bromides. Analytical Methods, 2020, Vol. 12, pp. 587-594. 8. Gorbunova M. O., Baulina A. A., Kulyaginova M. S., Apyari V. V., Furletov, A. A., Garshev A. V., Dmitrienko S. G. Determination of iodide based on dynamic gas extraction and colorimetric detection by paper modified with silver triangular nanoplates. Microchemical Journal, 2019, Vol. 145, pp. 729-736. 9. Gorbunova M. O., Bayan E. M. A novel paper-based sensor for determination of halogens and halides by dynamic gas extraction. Talanta, 2019, Vol. 199, pp. 513-521. 10. Gorbunova M. O., Baulina A. A., Kulyaginova M. S., Apyari V. V., Furletov A. A., Volkov P. A., Bochenkov V. E., Starukhin A. S., Dmitrienko S. G. Dynamic gas extraction o f iodine in combination with a silver triangular nanoplate-modified paper strip for colorimetric determination of iodine and o f iodine-interacting compounds. Microchimica Acta, 2019, Vol. 186, pp. 188. 11. Apyari V. V., Gorbunova M. O., Shevchenko A. V., Furletov A. A., Volkov P. A., Garshev A. V., Dmitrienko S. G., Zolotov Y. A. Towards highly selective detection using metal nanoparticles: A case of silver triangular nanoplates and chlorine. Talanta, 2018, Vol. 176, pp. 406-411. 12. Gorbunova M. O., Shevchenko A. V., Apyari V. V., Furletov A. A., Volkov P. A., Garshev A. V., Dmitrienko S. G. Selective determination of chloride ions using silver triangular nanoplates and dynamic gas extraction. Sensors and Actuators B: Chemical, 2018, Vol. 256, pp. 699-705. © Колесникова Т. С., Горбунова М. О., Уфлянд И. Е., 2023 184