ADVANCED MATERIALS AGAINST INSECTS AND TICKS

17th International Conference on Fundamental and Applied Aspects of Physical Chemistry (Proceedings, Volume I) (2024) [H-06-O, pp. 297-300]

AUTHOR(S) / АУТОР(И): Sergey A. Zverev , Sergey V. Andreev , Daria V. Savraeva , Ana A. Selivanova , A.S. Zvereva and Konstantin A. Sakharov

Download Full Pdf   

DOI: 10.46793/Phys.Chem24I.297Z

ABSTRACT / САЖЕТАК:

The use of materials that protect people from attacks by blood-sucking mosquitoes and ticks can significantly reduce the transmission of vector-borne infections. The results of this study demonstrate that inorganic oxides can be employed as repellent carrier substances to develop controlled-release materials. However, there was no direct correlation between the adsorption activity Qe (mg/g) and the concentration of N,N-diethyl-3-methylbenzamide (DEET) in the fabric(mg/m2). The most effective materials were produced using Al2O3 and ZrO2 oxides (more than 80 mg/m2 of DEET), as they contained the highest repellent concentration and therefore will have the greatest biological effect with the lowest economic costs. The materials have a high potential against blood-sucking insects and can be used in various conditions due to their controlled and prolonged effect.

KEYWORDS / КЉУЧНЕ РЕЧИ:

ACKNOWLEDGEMENT / ПРОЈЕКАТ:

The work was carried out at the expense of the industry research program of Rospotrebnadzor for 2024-2025 (No. 1023032900395-5-1.6.23) and supported by Singapore MAR grant 04INS000458C150OOE01.

REFERENCES / ЛИТЕРАТУРА:

  • W. D. Callister, D. G. Rethwisch, John Wiley & Sons, 2020. P. 975
  • Vector-borne diseases [Electronic resource]. 2020. URL: https://www.who.int/news-room/fact- sheets/detail/vector-borne-diseases (accessed: 21.08.2023).
  • C. M. Barker, W. K. Reisen, Medical and Veterinary Entomology. Elsevier, 2019. P. 33–49.
  • S. V. Bugmyrin et al., Ticks Tick. Borne. Dis., 13(6) (2022) 102045.
  • T. Shah et al., Front. Microbiol. 14 (2023).
  • S. S. Wang et al., One Heal. 2023(16) (2023) 100508.
  • S. A. Zverev et al., Exp. Appl. Acarol., 89( 2) (2023) 275–286.
  • A. Ashitha, J. Mathew, Cham: Springer International Publishing, (2020) 141–153.
  • S. V. Andreev et al. Acarina, 32(1) (2024) 59-68.
  • S. A. Zverev et al., Colloid and Polymer Science, (2024) 1-10.