Composites Based on Polyvinyl Alcohol and WO3: Preparation and Photochromic Characteristics

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Somente assinantes

Resumo

A comparative analysis of the photochromic properties of composites based on polyvinyl alcohol and WO3 nanoparticles stabilized with polyvinylpyrrolidone with different molecular weights has been performed. The composites possess reversible photochromicity. The results of electron absorption spectroscopy, thermal analysis, and mechanical tests showed that under the action of UV light, crosslinking of the polymer can occur depending on the molecular weight of the stabilizer and the polymer matrix.

Sobre autores

A. Evdokimova

Krestov Institute of Solution Chemistry, Russian Academy of Sciences

Email: kav@isc-ras.ru
153045, Ivanovo, Russia

V. Shibaeva

Krestov Institute of Solution Chemistry, Russian Academy of Sciences

Email: kav@isc-ras.ru
153045, Ivanovo, Russia

N. Sirotkin

Krestov Institute of Solution Chemistry, Russian Academy of Sciences

Email: kav@isc-ras.ru
153045, Ivanovo, Russia

A. Khlyustova

Krestov Institute of Solution Chemistry, Russian Academy of Sciences

Autor responsável pela correspondência
Email: kav@isc-ras.ru
153045, Ivanovo, Russia

Bibliografia

  1. Wang S., Fan W., Liu Z. et al. // J. Mater. Chem. C. 2018. V. 6. № 2. P. 191.
  2. Sangpraserdsuk T., Phiriyawirut M., Ngaotrakanwiwat P., Wootthikanokkhan J. // J. Reinf. Plast. Compos. 2017. V. 36. № 16. P. 1168.
  3. Wang Z., Ai L., Wu Q. // J. Coord. Chem. 2020. P. 73. № 17–19. P. 2402.
  4. Soytaş S.H., Oğuz O., Menceloğlu Y.Z. // Polym. Compos. Funct. Nanoparticles. Elsevier. 2019. P. 287–323.
  5. Ejeromedoghene O., Hu Y.P., Oderinde O., Yao F. et al. // J. Appl. Polym. Sci. 2022. V. 139. № 12. P. 51815.
  6. Evdokimova O.L., Kusova T.V., Ivanova O.S., et al. // Cellulose. 2019. V. 26. P. 9095.
  7. Kozlov D.A., Shcherbakov A.B., Kozlova T.O. et al. // Molecules. 2019. V. 25. № 1. P. 154.
  8. Li R., Zhou Y., Shao Z. et al. // ChemistrySelect. 2019. V. 4. № 33. P. 9817.
  9. Kozlov D.A., Kozlova T.O., Shcherbakov A.B. et al. // Russ. J. Inorg. Chem. 2020. V. 65. P. 1088.
  10. Chen W., Shen H., Zhu X. et al. // Ceram. Int. 2015. V. 41. № 10. P. 14008.
  11. Фахрнасова Д.Р., Гаврилова Н.Н., Назаров В.В. // Успехи в химии и химической технологии. 2010. Т. 24. № 1 (106). С. 99.
  12. Akamatsu T., Itoh T., Izu N., Shin W. // J. Ceram. Soc. Jap. 2014. V. 122. № 1428. P. 674.
  13. Zhang M., Lei J., Shi Y. et al. // RSC Adv. 2016. V. 6. № 86. P. 83366.
  14. Finch C.A. (ed.). Polyvinyl alcohol; properties and applications. John Wiley & Sons, 1973.
  15. George S.C., Thomas S. // Prog. Polym. Sci. 2001. V. 26. № 6. P. 985.
  16. Хабибуллина Л.Ф., Сидоров Ю.Д., Поливанов М.А., Василенко С.В. // Вестник Казанского технологического университета. 2016. Т. 19. № 21. С. 109.
  17. Li X.G., Kresse I., Springer J. et al. // Polymer. 2001. V. 42. № 16. P. 6859.
  18. Kikuchi E., Iida K., Fujishima A., Itoh K. // J. Electroanal. Chem. 1993. V. 351. № 1–2. P. 105.
  19. Tretinnikov O.N., Sushko N.I. // Russ. J. Phys. Chem. A. 2011. V. 85. № 12. P. 2177.
  20. Schack N.B., Oliveira C.L.P., Young N.W.G. et al. // Langmuir. 2009. V. 25. № 2. P. 1148.
  21. Kaczmarek H., Kaminska A., Swiatek M. et al. // Die Angewandte Makromolekulare Chemie. 1998. V. 261. № 1. P. 109–121.
  22. Ghasemi P., Sharifi M.J., Javanbakht S., Shaabani A. // Mater. Today Commun. 2021. V. 29. P. 102903.
  23. Поп М.С. Гетерополи- и изополиоксометаллаты / Пер. с англ. Новосибирск: Наука, 1990.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2.

Baixar (114KB)
Metadados
3.

Baixar (153KB)
Metadados
4.

Baixar (45KB)
Metadados
5.

Baixar (94KB)
Metadados

Declaração de direitos autorais © А.В. Евдокимова, В.Д. Шибаева, Н.А. Сироткин, А.В. Хлюстова, 2023